This document provides information on various types of drilling, threading, turning, and milling tools including:
1) HSS and solid carbide drilling, tapping, threading, turning, and milling cutters.
2) Milling cutters with indexable carbide inserts for circular milling, threading, and other operations.
3) Details on toolholders, materials examples, cutting data, and an article number index for selecting the appropriate tool.
This document provides an overview of hand tools produced by NEILL TOOLS, including:
- Hacksaw blades in various styles (all hard, bimetal, flexible) and tooth counts for cutting different materials
- Guidelines for selecting the appropriate blade based on material thickness and type
- Power hacksaw blades in various sizes and tooth counts
The document emphasizes NEILL TOOLS' dedication to quality, with ISO 9001 certification, and guarantees their tools against defects.
The document is a catalog listing various pliers, cutters, and crimping tools. It provides descriptions, specifications, and item numbers for insulated and uninsulated tools. Key tools highlighted include insulated lineman's pliers with crimping jaws, insulated combination pliers, and insulated diagonal cutters. The catalog also lists tool sets, holsters, and tools for specialized applications like electronics work.
She Hong Industrial Co., Ltd. is a Taiwanese manufacturer of heavy cutting machining centers with sales and service centers globally. They offer 10 models of machining centers with various spindle speeds and sizes to meet customer requirements. Key features include high rigidity, minimal vibration, efficient chip removal, and a compact footprint to save floor space.
This document provides information on Eclipse Magnetics' product range of permanent magnets and magnetic chucks. It summarizes Eclipse Magnetics' long history and expertise in magnetic product design and manufacturing. It then lists specifications for various rectangular and cylindrical bar magnets, button magnets, major/minor magnets, pocket magnets, power magnets, deep pot magnets, shallow pot magnets, neo-hold bi-pole magnets, magnetic feet, ferrite shallow pot magnets, heavy duty ferrite shallow pot magnets, magnetic discs, flexible magnets, marker magnets, and premier range magnetic chucks.
This document provides information on WIKA bimetal thermometers for industrial process applications. It describes the various models, including those with standard fixed stems (Models 55), adjustable stems and dials (Model S5550), and those with electrical alarm contacts. The thermometers feature stainless steel construction, various process connections and insertion lengths, and accuracy according to DIN EN 13190. Dimensions, technical specifications, and ordering information are provided for the different models.
The document provides specifications for various mobile cabinets, drawers, tool trolleys, and accessory sets. The mobile cabinets have curve shaped corners for safety, double-decker construction for strength, non-slip tops, and locking interlock drawers. Tool trolleys and accessory sets include items like screwdriver sets, file sets, and nutspinner sets organized in modular plastic trays. Maximum loading capacities and dimensions are provided for the different mobile cabinet models and configurations.
The document describes various tools for working with pipes and hoses, including hose clamps, pipe wrenches, pliers, tube cutters, and gauges. Specifications are provided for each item, including materials, sizes available, and intended applications. A variety of brands and styles are listed to suit different piping needs.
This document provides an overview of hand tools produced by NEILL TOOLS, including:
- Hacksaw blades in various styles (all hard, bimetal, flexible) and tooth counts for cutting different materials
- Guidelines for selecting the appropriate blade based on material thickness and type
- Power hacksaw blades in various sizes and tooth counts
The document emphasizes NEILL TOOLS' dedication to quality, with ISO 9001 certification, and guarantees their tools against defects.
The document is a catalog listing various pliers, cutters, and crimping tools. It provides descriptions, specifications, and item numbers for insulated and uninsulated tools. Key tools highlighted include insulated lineman's pliers with crimping jaws, insulated combination pliers, and insulated diagonal cutters. The catalog also lists tool sets, holsters, and tools for specialized applications like electronics work.
She Hong Industrial Co., Ltd. is a Taiwanese manufacturer of heavy cutting machining centers with sales and service centers globally. They offer 10 models of machining centers with various spindle speeds and sizes to meet customer requirements. Key features include high rigidity, minimal vibration, efficient chip removal, and a compact footprint to save floor space.
This document provides information on Eclipse Magnetics' product range of permanent magnets and magnetic chucks. It summarizes Eclipse Magnetics' long history and expertise in magnetic product design and manufacturing. It then lists specifications for various rectangular and cylindrical bar magnets, button magnets, major/minor magnets, pocket magnets, power magnets, deep pot magnets, shallow pot magnets, neo-hold bi-pole magnets, magnetic feet, ferrite shallow pot magnets, heavy duty ferrite shallow pot magnets, magnetic discs, flexible magnets, marker magnets, and premier range magnetic chucks.
This document provides information on WIKA bimetal thermometers for industrial process applications. It describes the various models, including those with standard fixed stems (Models 55), adjustable stems and dials (Model S5550), and those with electrical alarm contacts. The thermometers feature stainless steel construction, various process connections and insertion lengths, and accuracy according to DIN EN 13190. Dimensions, technical specifications, and ordering information are provided for the different models.
The document provides specifications for various mobile cabinets, drawers, tool trolleys, and accessory sets. The mobile cabinets have curve shaped corners for safety, double-decker construction for strength, non-slip tops, and locking interlock drawers. Tool trolleys and accessory sets include items like screwdriver sets, file sets, and nutspinner sets organized in modular plastic trays. Maximum loading capacities and dimensions are provided for the different mobile cabinet models and configurations.
The document describes various tools for working with pipes and hoses, including hose clamps, pipe wrenches, pliers, tube cutters, and gauges. Specifications are provided for each item, including materials, sizes available, and intended applications. A variety of brands and styles are listed to suit different piping needs.
This document describes various types of vacuum cups and their specifications. It includes traditional cup-shaped vacuum cups for gripping small flat or slightly curved objects. These cups range from 4-45mm in diameter and are made from standard compounds like natural rubber, oil-resistant rubber, and silicone. They can be attached to supports made of brass or aluminum. Specifications are provided for different cup sizes, materials, and attachment options. The document also contains diagrams of the cups and supports.
This document provides information on various types of flexible grid couplings produced by CMDCouplings, including:
- The Winflex coupling, which features a special hub tooth design that increases contact surface with the grid proportionally to torque to maintain constant contact pressure.
- A range of coupling types for different applications, such as single cover, spacer, and overrunning clutch types.
- Technical specifications and dimensions for different coupling sizes, including nominal torque ratings, keyway and bore dimensions, weights, and maximum speed ratings.
- Information on selecting the proper coupling size based on calculated torque requirements and compatibility with shaft speeds and bores.
This document provides information on various measuring tools and working lights. It lists specifications for torque wrenches, torque testers, protractors, rulers, squares, feeler gauges, screw pitch gauges, calipers, tape rulers, center punches, scribers, flashlights, strip lights, work lights, rechargeable work lights, and borescopes. The tools are made from materials like stainless steel, aluminum alloys, and brass. They are used to measure various mechanical components and provide illumination for work in limited spaces.
Norton Omega abrasive products provide exceptional cutting speed and stock removal for demanding metalworking applications. They work faster and last longer than standard abrasives, saving time and increasing productivity. Omega flap discs and cutting-off and grinding wheels offer a higher material removal rate and up to 30% longer product life compared to competitors. Internal tests show Omega performing better on stainless steel and carbon steel for cutting-off and grinding applications.
This document provides information on NC Helix Drill tools including:
- Descriptions of cylindrical shank and screw fit cutter types for external and internal coolant applications.
- Specifications and ordering codes for various tool bodies, holders, and inserts.
- Guidelines for choosing tools based on hole diameter, depth, and material.
- Formulas and examples for calculating spindle speed, feed rate, chip removal rate, and cutting time.
- Programming and machining tips for through holes, step holes, and bottom finish.
This document provides information about the GRA100 5-axis high-speed machining center from Jingdiao. It is designed for precision machining of small parts and molds. The machining center has fully closed-loop control for high accuracy and thermal stability. It also has features for convenient recycling of precious metal debris. The document includes specifications, examples of parts machined, and descriptions of its components like the spindle, rotary table, tool magazines, and optional material handling system.
The new range of Norton Vulcan cutting-off, grinding wheels, flap discs and diamond blades from Saint-Gobain Abrasives provides a solution for all industrial applications. Vulcan is a multi-solution provider that offers performance, value and convenience.
The document provides a catalog listing of various tools including: chisel sets, auto body repair tool sets, center punch sets, torque multiplier sets, bearing separator kits, auto body tools, hammers, pliers, wrenches, vises, crimping tools, lights, testers, and extractors. It includes the part number, contents, dimensions, and weight for each item.
Traction tread safety grating can be used as a reconditioning material for existing surfaces where does not provide anti-slip properties. There are various button patterns available. jack@archro.com
Punzonadora Boschert para barras de cobre y dobladora cnc controlada con soft...Grupo Idemet SA de CV
Punzonadora CNC, para barras de cobre. Solución completa para fabricar Barras de tableros de carga o distribución de energía. Es posible suministrar soluciones para Industria 4.0
URALS PIPE WORKS produces various types of steel pipes including line pipes, casing pipes, pressure pipes, and structural hollow sections. The document provides detailed specifications on the dimensions, steel grades, standards, and product ranges for each type of pipe. Pipes can be produced in outer diameters ranging from 114-630mm, wall thicknesses from 3-22mm, and lengths from 6-18m.
Norton lanseeraa uuden napalaikan, Quantum Fast Cut, jonka ansiosta hionta on huomattavasti nopeampaa ja käyttöikä 4-8 kertaa pidempi kuin perinteisillä napalaikoilla.
Punzonadora de Torreta Boschert combicut Combinación plasma y punzonadoGrupo Idemet SA de CV
This document discusses Boschert's Combicut plasma cutting and punching machine. The Combicut offers high productivity, quality and flexibility through its combination of plasma cutting, punching, forming and marking technologies in a single integrated machine. It provides dross-free cutting, fine tolerances and smooth cut edges using Boschert's HiFocus plasma technology. The Combicut allows complex contours to be cut quickly at high quality for both inside and outside shapes.
This document provides information on ETG® 88/100 steel products from Steeltec including:
- Product categories include ETG® 88 and 100 which are available in various sizes, finishes, and tolerances. Special orders can be made to other specifications.
- The chemical composition corresponds to industry standards SAE1144 and 44SMn28 with carbon, silicon, manganese, phosphorus, and sulfur content.
- ETG® 88 and 100 have high proof stresses and mechanical properties that allow them to replace a range of standard steel grades for weight and cost savings depending on the application.
The GRA300 is a 5-axis high-speed machining center designed for precision machining of dies, molds, and complex hardware parts. It has fully closed-loop control for stable 5-axis machining and a maximum workpiece dimension of 390x510x300mm. Optional accessories include various tool magazines and an MHS60 material handling system to enable continuous, unattended production.
Claas arion 600 (type a19) tractor service repair manualfjkskedmme
1. The document provides instructions for inspecting, measuring, and removing/refitting various components of the cylinder head and valves of an Arion 640-510 engine, including the valve bridges, rocker pins, rockers, valves, springs, cylinder head, guides, seats, and turbocharger.
2. Dimensions and specifications are provided for comparing wear limits and clearances. Instructions specify cleaning, marking, and replacing worn parts.
3. The removal and refitting process for several accessories is described, including the alternator, viscous coupling, fan hub, and turbocharger. Torques and directions are noted.
Decorative perforated metal sheets can be manufactured from various materials. E.g. aluminum, galvanized steel, stainless steel, copper or brass. Each material has its unique texture and characters. So as to presents various scenes of buildings. We can provide virtually thousands of different hole shapes and patterns for customers. Holes can be round, square, rectangular, slotted or decorative. The perforated patterns can be custom or one of the standard patterns. jack@archro.com
Nortons nya patentsökta bindemedelsteknologi Vitrium3 medger en betydligt starkare fasthållning av slipkornen i bindemedlet. Detta medger en högre porositet i skivan vilket ger effektivare kylning. Vid t.ex. plan- och djupslipning krävs mycket effektiv kylning och därmed slipskivor med hög permeabilitet, dvs. förmågan att släppa igenom kylvätska.
The document provides information on the JINGDIAO PGA600 3-axis high speed machining center. It includes:
- Details on its fully enclosed design that protects from graphite dust, intelligent modification of workpiece position, and ball screw cooling for accuracy.
- Specifications including its travel range, table size, and maximum workpiece dimensions.
- Features such as its bridge style design, dust collection system, and ergonomic factors.
- Technical details on its JD50 CNC system, tool magazine, spindle options, accessories like a graphite dust collector and spindle chiller.
- An overview of its on-machine measurement and intelligent modification technology.
Established in 1971, MINDRILL is a 50-year old manufacturer of mining & construction equipment. We have a 100,000 sq. ft. state-of-the-art manufacturing facility in India with advanced manufacturing capabilities including CNC, VMC, HMC, CNC grinding, sealed-quench heat treatment, metallurgical lab, assembly, quality control, and logistics, all under one roof.
MINDRILL is a seasoned OEM supplier with a strong sales & service setup in India and over 25 countries internationally. We are proud of our industry-leading line of drill rigs, jackhammers, underground rockdrills, DTH hammers, drifters, demolition tools, drill bits, drilling tools, and accessories.
With a customer-centric mindset and a strong team of over 200 employees, MINDRILL provides single-window contract manufacturing services to our customers worldwide. We perform rapid product development & volume manufacturing for our OEM customers located in USA, Canada, South Africa, Sweden, Belgium, and Italy.
Get in touch with us today at marketing@mindrill.com or www.mindrill.com for all your mining & construction equipment needs!
TorcStark® is a professional manufacturer and supplier of hydraulic equipment. Mainly produce hydraulic torque wrenches, hydraulic bolt tensioners, hydraulic torque/tensioner pumps and other products.
This document provides information on solid carbide thread mills for high-hardness steels from Mitsubishi Hitachi Tool Engineering. Key points:
1. The Epoch D Thread Mill can simultaneously drill and cut threads in materials up to 45HRC hardness without a pilot hole.
2. Advanced coatings like ATH and PN provide improved cutting performance, hardness, oxidation resistance and extended tool life.
3. The thread mills can cut various thread types like right-hand and left-hand threads by changing the NC program and reduce risk of breaking compared to taps.
This document describes various types of vacuum cups and their specifications. It includes traditional cup-shaped vacuum cups for gripping small flat or slightly curved objects. These cups range from 4-45mm in diameter and are made from standard compounds like natural rubber, oil-resistant rubber, and silicone. They can be attached to supports made of brass or aluminum. Specifications are provided for different cup sizes, materials, and attachment options. The document also contains diagrams of the cups and supports.
This document provides information on various types of flexible grid couplings produced by CMDCouplings, including:
- The Winflex coupling, which features a special hub tooth design that increases contact surface with the grid proportionally to torque to maintain constant contact pressure.
- A range of coupling types for different applications, such as single cover, spacer, and overrunning clutch types.
- Technical specifications and dimensions for different coupling sizes, including nominal torque ratings, keyway and bore dimensions, weights, and maximum speed ratings.
- Information on selecting the proper coupling size based on calculated torque requirements and compatibility with shaft speeds and bores.
This document provides information on various measuring tools and working lights. It lists specifications for torque wrenches, torque testers, protractors, rulers, squares, feeler gauges, screw pitch gauges, calipers, tape rulers, center punches, scribers, flashlights, strip lights, work lights, rechargeable work lights, and borescopes. The tools are made from materials like stainless steel, aluminum alloys, and brass. They are used to measure various mechanical components and provide illumination for work in limited spaces.
Norton Omega abrasive products provide exceptional cutting speed and stock removal for demanding metalworking applications. They work faster and last longer than standard abrasives, saving time and increasing productivity. Omega flap discs and cutting-off and grinding wheels offer a higher material removal rate and up to 30% longer product life compared to competitors. Internal tests show Omega performing better on stainless steel and carbon steel for cutting-off and grinding applications.
This document provides information on NC Helix Drill tools including:
- Descriptions of cylindrical shank and screw fit cutter types for external and internal coolant applications.
- Specifications and ordering codes for various tool bodies, holders, and inserts.
- Guidelines for choosing tools based on hole diameter, depth, and material.
- Formulas and examples for calculating spindle speed, feed rate, chip removal rate, and cutting time.
- Programming and machining tips for through holes, step holes, and bottom finish.
This document provides information about the GRA100 5-axis high-speed machining center from Jingdiao. It is designed for precision machining of small parts and molds. The machining center has fully closed-loop control for high accuracy and thermal stability. It also has features for convenient recycling of precious metal debris. The document includes specifications, examples of parts machined, and descriptions of its components like the spindle, rotary table, tool magazines, and optional material handling system.
The new range of Norton Vulcan cutting-off, grinding wheels, flap discs and diamond blades from Saint-Gobain Abrasives provides a solution for all industrial applications. Vulcan is a multi-solution provider that offers performance, value and convenience.
The document provides a catalog listing of various tools including: chisel sets, auto body repair tool sets, center punch sets, torque multiplier sets, bearing separator kits, auto body tools, hammers, pliers, wrenches, vises, crimping tools, lights, testers, and extractors. It includes the part number, contents, dimensions, and weight for each item.
Traction tread safety grating can be used as a reconditioning material for existing surfaces where does not provide anti-slip properties. There are various button patterns available. jack@archro.com
Punzonadora Boschert para barras de cobre y dobladora cnc controlada con soft...Grupo Idemet SA de CV
Punzonadora CNC, para barras de cobre. Solución completa para fabricar Barras de tableros de carga o distribución de energía. Es posible suministrar soluciones para Industria 4.0
URALS PIPE WORKS produces various types of steel pipes including line pipes, casing pipes, pressure pipes, and structural hollow sections. The document provides detailed specifications on the dimensions, steel grades, standards, and product ranges for each type of pipe. Pipes can be produced in outer diameters ranging from 114-630mm, wall thicknesses from 3-22mm, and lengths from 6-18m.
Norton lanseeraa uuden napalaikan, Quantum Fast Cut, jonka ansiosta hionta on huomattavasti nopeampaa ja käyttöikä 4-8 kertaa pidempi kuin perinteisillä napalaikoilla.
Punzonadora de Torreta Boschert combicut Combinación plasma y punzonadoGrupo Idemet SA de CV
This document discusses Boschert's Combicut plasma cutting and punching machine. The Combicut offers high productivity, quality and flexibility through its combination of plasma cutting, punching, forming and marking technologies in a single integrated machine. It provides dross-free cutting, fine tolerances and smooth cut edges using Boschert's HiFocus plasma technology. The Combicut allows complex contours to be cut quickly at high quality for both inside and outside shapes.
This document provides information on ETG® 88/100 steel products from Steeltec including:
- Product categories include ETG® 88 and 100 which are available in various sizes, finishes, and tolerances. Special orders can be made to other specifications.
- The chemical composition corresponds to industry standards SAE1144 and 44SMn28 with carbon, silicon, manganese, phosphorus, and sulfur content.
- ETG® 88 and 100 have high proof stresses and mechanical properties that allow them to replace a range of standard steel grades for weight and cost savings depending on the application.
The GRA300 is a 5-axis high-speed machining center designed for precision machining of dies, molds, and complex hardware parts. It has fully closed-loop control for stable 5-axis machining and a maximum workpiece dimension of 390x510x300mm. Optional accessories include various tool magazines and an MHS60 material handling system to enable continuous, unattended production.
Claas arion 600 (type a19) tractor service repair manualfjkskedmme
1. The document provides instructions for inspecting, measuring, and removing/refitting various components of the cylinder head and valves of an Arion 640-510 engine, including the valve bridges, rocker pins, rockers, valves, springs, cylinder head, guides, seats, and turbocharger.
2. Dimensions and specifications are provided for comparing wear limits and clearances. Instructions specify cleaning, marking, and replacing worn parts.
3. The removal and refitting process for several accessories is described, including the alternator, viscous coupling, fan hub, and turbocharger. Torques and directions are noted.
Decorative perforated metal sheets can be manufactured from various materials. E.g. aluminum, galvanized steel, stainless steel, copper or brass. Each material has its unique texture and characters. So as to presents various scenes of buildings. We can provide virtually thousands of different hole shapes and patterns for customers. Holes can be round, square, rectangular, slotted or decorative. The perforated patterns can be custom or one of the standard patterns. jack@archro.com
Nortons nya patentsökta bindemedelsteknologi Vitrium3 medger en betydligt starkare fasthållning av slipkornen i bindemedlet. Detta medger en högre porositet i skivan vilket ger effektivare kylning. Vid t.ex. plan- och djupslipning krävs mycket effektiv kylning och därmed slipskivor med hög permeabilitet, dvs. förmågan att släppa igenom kylvätska.
The document provides information on the JINGDIAO PGA600 3-axis high speed machining center. It includes:
- Details on its fully enclosed design that protects from graphite dust, intelligent modification of workpiece position, and ball screw cooling for accuracy.
- Specifications including its travel range, table size, and maximum workpiece dimensions.
- Features such as its bridge style design, dust collection system, and ergonomic factors.
- Technical details on its JD50 CNC system, tool magazine, spindle options, accessories like a graphite dust collector and spindle chiller.
- An overview of its on-machine measurement and intelligent modification technology.
Established in 1971, MINDRILL is a 50-year old manufacturer of mining & construction equipment. We have a 100,000 sq. ft. state-of-the-art manufacturing facility in India with advanced manufacturing capabilities including CNC, VMC, HMC, CNC grinding, sealed-quench heat treatment, metallurgical lab, assembly, quality control, and logistics, all under one roof.
MINDRILL is a seasoned OEM supplier with a strong sales & service setup in India and over 25 countries internationally. We are proud of our industry-leading line of drill rigs, jackhammers, underground rockdrills, DTH hammers, drifters, demolition tools, drill bits, drilling tools, and accessories.
With a customer-centric mindset and a strong team of over 200 employees, MINDRILL provides single-window contract manufacturing services to our customers worldwide. We perform rapid product development & volume manufacturing for our OEM customers located in USA, Canada, South Africa, Sweden, Belgium, and Italy.
Get in touch with us today at marketing@mindrill.com or www.mindrill.com for all your mining & construction equipment needs!
TorcStark® is a professional manufacturer and supplier of hydraulic equipment. Mainly produce hydraulic torque wrenches, hydraulic bolt tensioners, hydraulic torque/tensioner pumps and other products.
This document provides information on solid carbide thread mills for high-hardness steels from Mitsubishi Hitachi Tool Engineering. Key points:
1. The Epoch D Thread Mill can simultaneously drill and cut threads in materials up to 45HRC hardness without a pilot hole.
2. Advanced coatings like ATH and PN provide improved cutting performance, hardness, oxidation resistance and extended tool life.
3. The thread mills can cut various thread types like right-hand and left-hand threads by changing the NC program and reduce risk of breaking compared to taps.
This document is a catalog for pliers and tools made by KNIPEX. It includes sections that describe different types of pliers like cutting pliers, gripping pliers, and special pliers. It also provides information on plier jaws, joint connections, wire classes that can be cut, and safety instructions. The catalog lists specific plier models along with their article numbers, finishes, lengths, styles, and pages in the catalog where they can be found.
This document is a catalog for various types of pliers and tools. It provides information on pliers basics, including jaw shapes, joint connections, wire classes, cutting capabilities, and safety instructions. The catalog also lists specific pliers and tools, including their article numbers, features, intended uses, and specifications. It serves as a reference for selecting the appropriate plier or tool for a given application.
The document provides information about panel saws and scoring saws for cutting materials like MDF and particle board. It includes specifications for various panel saws and scoring saws with details like diameter, number of teeth, bore size, kerf width, plate thickness, design, and intended machine applications. The purpose of using a main blade and matching scoring blade is to prevent chipping on the bottom surface of the material being cut by first scoring the lower surface ahead of the full cut by the main blade. As the main blade becomes narrower with sharpening, the scoring blade must be adjusted to maintain the same kerf width through the use of shims or adjusting the cutting depth for conic scoring saws.
Sandvik pipe – tube – bar – hollow bar stock program in stainless
Sandvik offers a wide range of stainless steel tubing, pipe, bar, and hollow bar from stock. This includes hydraulic tubing, instrumentation tubing, pipe to ANSI/ASME standards, metric sized tube, high temperature tubing and pipe, composite tubes, heat exchanger tubes, titanium and zirconium tubing, stainless hollow bar, stainless bar steel, and welding consumables. Sandvik can supply both standard and custom sizes to meet customer needs.
Hydra Solid Carbide Replaceable Head Drillsdario furlato
Dormer Interchangeable solid carbide head drills for high performance machining of steels, stainless steels and cast iron. Proven in drilling structural steel beams used in the construction industry. One of the most reliably accurate interchangeable head drills available. Fail-safe head location can be changed without ejecting the drill from the machine. Available with coolant feed across the full range and a choice of HSS bodies to support drilling to 3xD, 5xD and 8xD
A_MukherjeePresn for engineers good fileZiad Salem
This document discusses the evaluation of roll pass design using software. It describes the objectives of roll pass design which is to reduce the cross-sectional area in each pass to gradually form the desired product profile. It then explains the rolling process and factors to consider in roll pass design like taper percentage, groove angles, and fitting. Finally, it shows an example evaluation of 19 passes to reduce a material's cross sectional area and calculates the required power in each pass.
This document provides information on insulated tools that comply with safety standards for working on live electrical cables and wires. It lists various insulated tools including screwdrivers, pliers, wire strippers, cable cutters and spanners. For each tool, it provides the reference number, dimensions, material specifications, and voltage testing certifications to ensure the tools can be safely used for live working. It also describes tool kits that contain assortments of insulated tools for different electrical work applications.
The document provides terms and conditions for sales and returns of saw blades from Popular Tools. It lists pricing and specifications for various panel saws, rip saws, and other specialty saw blades. Prices are subject to change without notice. Returns require authorization and must be unused, unmodified, and in original packaging within 90 days. The warranty is void if blades are reground or polished to remove the logo.
KEY BAR CHUCK WITH QUICK-ACTION JAW CHANGE SYSTEM
The RÖHM key bar chucks with quick-acting jaw change system are used successfully in areas where extremely high clamping forces, high concentricity and reliable long-term repeatability are required. Thanks to the quick-acting jaw change system, the jaws can be quickly and easily turned, changed or offset over the entire clamping range within a few seconds.
Advantages
- Maximum clamping forces thanks to direct force transfer via the key bar system
- Maximum concentricity and axial run-out tolerance
- High user-friendliness thanks to quick-acting jaw change System
GEARED SCROLL CHUCKS
The RÖHM geared scroll chucks have proven themselves a thousand times over and have already been used successfully on lathes, rotary tables and dividing attachments for decades. The jaws can be adjusted over the entire clamping range in order to be able to very quickly clamp workpieces with a wide clamping diameter range without offsetting the jaws.
Adtantages
- Quick jaw adjustment over the entire clamping range
- Proven chuck with optimal price/performance ratio
- Protection of the machine spindle by means of splash-water edge
INDEPENDENT CHUCKS
Independent chucks from RÖHM are particularly successful and effective when force has top priority.
Due to the increased rigidity and optimal wear behavior, they are especially suitable for the Initial machining of irregular, regular and round workpieces and make high machining forces and a longer machine service life possible.
Advantages
- Safe and easy clamping of irregular, regular, as well as round workpieces by four
independently adjustable jaws
- Easy rough centering by means of concentric rings on the chuck body
- Direct force transfer through radially arranged threaded spindles
http://eshop.roehm.biz/roehm_de_en/online-shop/drehfutter-planscheiben.html
This document lists and describes various automotive tool sets including:
1. A 2-piece pliers set and 2-piece torque adapter set
2. A 3-piece step wrench set and 2-piece adjustable wrench set
3. Several 3-piece pliers sets, adjustable wrench sets, and other tool sets
4. The tools and components included in each set are described
BHUSHAN STEEL.pdf BROCHURE FOR STEEL TABLEKuberBhusal1
This document provides information about the manufacturing process for steel tubes at Bhushan Power and Steel Ltd. It begins with an overview of the company and its products. It then describes the tube manufacturing process which involves forming steel strips into tubular shapes and welding the edges. Various quality tests are conducted including hydraulic testing. Tubes may also be galvanized and threaded. Standards that the company's tubes conform to from various countries are listed. Details on specific tube types including dimensions, tolerances and material properties are provided.
18V Slitting shear used for multiple industries for cold cutting on building sites and factories. The tool is designed primarily for the Ducting Trade.
The Norton Clipper range of hand-held petrol saws features an electronic carburettor which eliminates the hassle of a choke and makes a stress-free start of the powerful 4kW/5,4HP engine. 4 models are available, in 300 or 350 mm blade diameter, and using standard fuel + oil mix or fitted with the first ever iLube® automatic lubrication system, which controls the mix of oil and fuel electronically.
The document provides specifications for insert flanges that conform to ANSI B16.5 standards for jacketed piping. It includes dimensions, weights, drilling patterns and other details for various insert flange part numbers in product lines 50-60, 53-63, and 70-80 for different pipe sizes from 1" to 24" nominal diameter. The document is a specifications sheet from American Insert Flange Co. for their ANSI rated insert flanges.
The document appears to be a catalog listing specifications and part numbers for various band saw components from a company called Exterra. It includes information on primary band saws, components, replacement parts, and equivalent part numbers for competing brands. The document contains tables listing technical details like blade widths, frame sizes, and part numbers for things like blades, tensioning mechanisms, and mounting brackets.
The document provides information about wedge wire filter elements produced by Trislot. It discusses why wedge wire is preferable to other filter media due to its strength, lack of maintenance costs, and ability to prevent production stops. It then describes what wedge wire is and the manufacturing process. The document provides details on various wedge wire profiles and materials available. It also discusses different product types like slot tubes and welded screens. Testimonials are included that praise Trislot's quality, services, and partnership. In under 3 sentences, the document summarizes wedge wire filter elements manufactured by Trislot and why they provide advantages over other filter media.
A&D Engineering Company Profile (Update OctoberAaron Chong
A&D Engineering is a one-stop solution provider for manufacturing industries that offers competitive solutions and provides customers with lower pricing through sourcing materials from overseas. It was established in 2008 and provides high quality, low cost products through its manufacturing facilities in Singapore and Malaysia, which include CNC and conventional machines. The company produces a wide range of standard and custom parts from micro pins to nozzles.
Similar to 9902200016 wnt catalogue 2016 06 circular and thread milling (20)
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Understanding Inductive Bias in Machine LearningSUTEJAS
This presentation explores the concept of inductive bias in machine learning. It explains how algorithms come with built-in assumptions and preferences that guide the learning process. You'll learn about the different types of inductive bias and how they can impact the performance and generalizability of machine learning models.
The presentation also covers the positive and negative aspects of inductive bias, along with strategies for mitigating potential drawbacks. We'll explore examples of how bias manifests in algorithms like neural networks and decision trees.
By understanding inductive bias, you can gain valuable insights into how machine learning models work and make informed decisions when building and deploying them.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
3. 06|2
Table of contents
Symbol explanation 2
Overview Circular and Thread Milling Cutters 3
WNT Toolfinder 4+5
Product programme 6–63
Technical Information
Cutting Data 64–68
Milling Procedures 69
Calculation of cutting data for thread milling 70
Thread type – Tool type – Coatings 71
Symbol explanation
60°
Version
Flank angle 60°
M
IR/IL
ER/EL
+
DIN 471/472
Applications
Thread / Flank angle
IR/IL + ER/EL
IR = internal right, IL = internal left
ER = external right, EL = external left
Circlip Grooves
Full radius slot milling
Slotting / Multi-purpose cutters
Chamfering and Deburring
Gear milling
Explanation of the types of thread can be
found on → Page 71.
Main Application
Extended application
● =
○ =
Premium quality tools for high performance.
The premium quality tools from the WNT Mastertool Performance
product line have been designed for specific applications and are
distinguished by their outstanding performance.
If you make high demands on the performance of your production
and want to achieve the very best results, we recommend the
Premium tools in this product line.
Quality tools for standard applications.
The quality tools of the WNT Mastertool Standard product line
are high quality, powerful and reliable and enjoy the highest trust
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Tools from this product line are the first choice for many standard
applications and guarantee optimal results.
DIN 1835
A
B
VHM
Shank
lateral internal coolant
central internal coolant
Solid carbide
no drilling required
DIN 6535
HA
HB
Circular and Thread Milling
Introduction
4. 06|3
6
Overview Circular and Thread Milling Cutters
Modular Circular Milling Cutters with Carbide Indexable Inserts
Thread Milling Cutters with Indexable Carbide Inserts
Solid Carbide Thread Milling Cutters
the perfect tool for every application
various holders, depending on overhang
the same threading insert for different pitches and diameters
highest flexibility and stability
in addition to circular thread milling, circular and linear milling operations can also be carried out
exchange of the insert for different threads
same threading insert for different diameters
short machining times, ideal for volume production
one tool for all thread types
one thread milling cutter for different diameters with the same pitch
MicroMill SGF UNI
DUMMY 1st choice for small batch sizes and large
threads
Circular and Thread Milling
Overview
5. 06|4
WNT Toolfinder
fromborediameterinmm
ModularCircularMillingCutterswith
CarbideIndexableInserts
Polygon
high power transmission through polygon connection
3 and 6 edged inserts
stable holders in solid carbide and steel
9,6
Mini
Mill
three interlocking rib location
compatible with popular manufacturer systems
3 and 6 edged inserts
stable holders in solid carbide and steel
9,6
System
300
proven circular milling tool
3 edged inserts
7,9
ThreadMillingCutterswithIndexableCarbideInserts
MWN
multi tooth thread milling cutter
double sided inserts
exclusively for thread production
holder for tapered threads
9,0
GZD
multi tooth drilling and thread milling cutter
for thread milling in solid material
core hole and thread with one tool
14,0
GZG
multi tooth thread milling cutter
exclusively for thread production
18,5
EAW
single point thread milling cutter
inserts with 2 or 4 cutting edges
exclusively for thread production
insert holder with cylindrical shank DIN 1835
17,5
EWM
single point thread milling cutter
inserts with 2 or 4 cutting edges
exclusively for thread production
integral insert holder to DIN 69871
43,0
SolidCarbideThreadMillingCutters
Micro
Mill
solid carbide circular milling cutter for small diameters 1,25
UNI
circular hole and thread milling cutter
core hole, countersink and thread with one tool
up to 3xD in short or long chipping materials
4,5
HR
single point thread milling cutter
exclusively for thread production
up to 3xD in materials up to 63 HRC
4,0
SFSE
solid carbide thread milling cutter with chamfering facet
only one tool for threading and chamfering
2,4
SGF
solid carbide thread milling cutter without chamfering facet
exclusively for thread production
3,15
Circular and Thread Milling
WNT Toolfinder
8. 06|7
6
Milling inserts for circlip grooves with chamfer
Both edges chamfered 0.1 x 45°
PLG = Polygon size
Polygon
DIN 471/472
Tmax
b
1
PLG
S1
S2
S2
Ti 500
Solid carbide
W2
PLG nominal width d1
b -0,03
T max.
C x 45° S2 H13
S1
Z Article no.
IC CW PDPT CHWTL ZEFP 50 879 ...
mm mm mm mm mm mm mm £
7
1,1 16.0 1.18 0.5 0.10 1.10 1.00 6 97.92 50879292
1,3 16.0 1.38 0.85 0.15 1.30 1.20 6 80.98 50879302
1,6 16.0 1.68 1.0 0.15 1.60 1.50 6 80.98 50879304
1,85 16.0 1.93 1.25 0.20 1.85 1.75 6 80.98 50879306
9
1,1 20.0 1.18 0.5 0.10 1.10 1.00 6 104.22 50879307
1,3 20.0 1.38 0.85 0.15 1.30 1.20 6 104.22 50879308
1,6 20.0 1.68 1.0 0.15 1.60 1.50 6 104.22 50879309
1,6 21.7 1.68 1.0 0.15 1.60 1.50 6 104.22 50879312
1,85 20.0 1.93 1.25 0.20 1.85 1.75 6 104.22 50879310
1,85 21.7 1.93 1.25 0.20 1.85 1.75 6 104.22 50879314
2,15 21.7 2.23 1.5 0.20 2.15 2.00 6 104.22 50879316
2,65 21.7 2.73 1.75 0.20 2.65 2.50 6 104.22 50879318
10
1,3 26.0 1.38 0.85 0.15 1.30 1.20 6 87.17 50879322
1,6 26.0 1.68 1.0 0.15 1.60 1.50 6 87.17 50879324
1,85 26.0 1.93 1.25 0.20 1.85 1.75 6 87.17 50879326
2,15 26.0 2.23 1.5 0.20 2.15 2.00 6 87.17 50879328
2,65 26.0 2.73 1.75 0.20 2.65 2.50 6 87.17 50879330
3,15 26.0 3.23 1.75 0.20 3.15 3.00 6 87.17 50879332
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
9. 06|8
Milling insert without profile
Both edges chamfered 0.1 x 45°
PLG 7: from 5.0 mm grooving width with ground chip breaker grooves
PLG 10: from 6.5 mm grooving width with ground chip breaker grooves
PLG = Polygon size
Polygon
b
d1
T
PLG Ti 500
Solid carbide
W2
PLG b +/-0,02
d1
T max.
α° Z Article no.
CW IC PDPT GAN ZEFP 50 875 ...
mm mm mm £
6
1.5 11.7 2.25 6 3 68.62 50875302
2.0 11.7 2.25 6 3 68.62 50875304
2.5 11.7 2.25 6 3 70.72 50875306
3.0 11.7 2.25 6 3 70.72 50875308
7
3.5 16.0 3.5 0 3 44.45 50875310
3.5 16.0 3.5 8 3 44.45 50875312
3.5 16.0 3.5 12 3 44.45 50875314
5.0 16.0 3.5 0 3 50.43 50875316
5.0 16.0 3.5 8 3 50.43 50875318
5.0 16.0 3.5 12 3 50.43 50875320
10
4.0 25.0 5.7 0 3 46.48 50875330
4.0 25.0 5.7 8 3 46.48 50875332
4.0 25.0 5.7 12 3 46.48 50875334
5.0 25.0 5.7 8 3 92.97 50875337
6.5 25.0 5.7 0 3 56.66 50875340
6.5 25.0 5.7 8 3 56.66 50875342
6.5 25.0 5.7 12 3 56.66 50875344
8.0 25.0 5.7 0 3 62.65 50875350
8.0 25.0 5.7 8 3 62.65 50875352
8.0 25.0 5.7 12 3 62.65 50875354
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
10. 06|9
6
Milling insert without profile
Both edges chamfered 0.1 x 45°
PLG = Polygon size
Polygon
1
b
T
PLG Ti 500
Solid carbide
W2
PLG b +/-0,02
d1
T max.
α° Z Article no.
CW IC PDPT GAN ZEFP 50 876 ...
mm mm mm £
7
1.5 17.7 4.0 6 6 83.70 50876307
2.0 17.7 4.0 6 6 84.18 50876308
2.5 17.7 4.0 6 6 85.06 50876309
3.0 16.0 3.5 6 6 76.90 50876302
4.0 16.0 3.5 6 6 81.59 50876304
5.0 16.0 3.5 6 6 83.70 50876306
9
1.5 21.7 5.0 6 6 96.44 50876314
2.0 21.7 5.0 6 6 97.18 50876315
2.5 21.7 5.0 6 6 97.18 50876316
3.0 21.7 5.0 6 6 98.15 50876317
3.0 20.0 4.2 6 6 98.15 50876311
4.0 20.0 4.2 6 6 101.13 50876312
5.0 20.0 4.2 6 6 106.32 50876313
10
1.5 27.7 6.8 6 6 119.30 50876330
2.0 27.7 6.8 6 6 120.90 50876332
2.5 27.7 6.8 6 6 120.90 50876334
3.0 26.0 6.2 6 6 81.59 50876322
3.0 27.7 6.8 6 6 122.28 50876336
4.0 26.0 6.2 6 6 86.06 50876324
5.0 26.0 6.2 6 6 107.68 50876326
6.5 26.0 6.2 6 6 88.28 50876328
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
11. 06|10
Milling inserts for radius milling
PLG = Polygon size
Polygon r
PLG
1
T
Ti 500
Solid carbide
W2
PLG r d1
T max.
Z Article no.
CRE IC PDPT ZEFP 50 886 ...
mm mm mm £
6
1.100 9.6 1.2 3 65.78 50886702
0.788 11.7 2.25 3 65.78 50886704
1.100 11.7 2.25 3 65.78 50886708
1.190 11.7 2.25 3 65.78 50886706
7
0.788 17.7 4.2 6 83.21 50886712
1.100 17.7 4.2 6 83.21 50886714
9
0.785 21.7 5.0 6 100.26 50886720
1.000 21.7 5.0 6 100.26 50886722
1.200 21.7 5.0 6 100.26 50886724
1.400 21.7 5.0 6 100.26 50886726
1.500 21.7 5.0 6 100.26 50886728
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
Milling inserts for chamfering and deburring
PLG = Polygon size
Polygon
1
T
PLG
Ti 500
Solid carbide
W2
PLG T max.
d1
Z Article no.
PDPT IC ZEFP 50 884 ...
mm mm £
6
1.2 9.6 3 65.78 50884292
1.5 11.7 3 65.78 50884294
7
1.9 16.0 6 79.49 50884302
1.3 17.7 6 99.52 50884304
9
1.9 20.0 6 102.74 50884312
1.6 21.7 6 100.26 50884314
10 2.1 26.0 6 87.17 50884322
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
Circular and Thread Milling
System Polygon
12. 06|11
6
Thread milling insert – Partial profile
with Holder 50 805 010 / 50 805 011 maximum pitch of 3 mm possible!
PLG = Polygon size
Polygon +
60°
1
PLG
b
Ti 500
Solid carbide
W2
PLG p d1
b Z Article no.
IC CF ZEFP 50 882 ...
mm mm mm £
6 1 - 3 11.7 0.10 3 95.07 50882292
7
1 - 3 17.7 0.10 6 106.70 50882306
1 - 4 16.0 0.10 6 86.06 50882302
2,5 - 4 16.0 0.25 6 106.70 50882304
9
1 - 2 21.7 0.10 6 108.18 50882314
1 - 3 20.0 0.10 6 108.18 50882312
2 - 4 21.7 0.15 6 108.18 50882316
10
1 - 3 26.0 0.10 6 92.60 50882322
2,5 - 5 26.0 0.25 6 114.86 50882324
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
13. 06|12
Thread milling insert – Full profile
PLG = Polygon size
Polygon
IR/IL
60°
M
1Tmax
PLG Ti 500
Solid carbide
W2
PLG p d1
T max.
Z Article no.
TP IC PDPT ZEFP 50 881 ...
mm mm mm £
6
1 9.6 0.572 3 116.08 50881292
1,5 9.6 0.875 3 116.08 50881293
2 10.5 1.157 3 116.08 50881296
7
1,5 16.0 0.875 6 106.32 50881302
2 16.0 1.157 6 106.32 50881304
2,5 16.0 1.430 6 106.32 50881306
3 16.0 1.702 6 106.32 50881310
M20x2,5 16.0 1.430 6 111.64 50881308 1)
9
1,5 20.0 0.875 6 135.88 50881312
2 20.0 1.157 6 135.88 50881314
M24x3 20.0 1.702 6 135.88 50881316 1)
10
1,5 26.0 0.875 6 112.88 50881322
2 26.0 1.157 6 112.88 50881324
3 26.0 1.702 6 112.88 50881330
3,5 26.0 1.982 6 112.88 50881332
4 26.0 2.263 6 112.88 50881334
4,5 26.0 2.553 6 112.88 50881336
5 26.0 2.836 6 139.94 50881337
M30x3,5 24.0 1.982 6 139.94 50881331 1)
M36x4 26.0 2.263 6 139.94 50881335 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
1) profile corrected → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
14. 06|13
6
Thread milling insert – Full profile
50 883 322 for threads >1"
PLG = Polygon size
Polygon +
55°
G BSW BSF
1
PLG
Tmax
Ti 500
Solid carbide
W2
PLG p p d1
T max.
Z Article no.
TDIN TP IC PDPT ZEFP 50 883 ...
1/" mm mm mm £
6 19 1.337 9.6 0.871 3 116.08 50883292
7
14 1.814 17.7 1.177 6 129.30 50883308
14 1.814 16.0 1.177 6 131.92 50883304
11 2.309 16.0 1.494 6 106.32 50883302
10 2.540 16.0 1.646 6 131.92 50883306
9
14 1.814 20.0 1.177 6 135.88 50883316
11 2.309 20.0 1.494 6 135.88 50883314
10 11 2.309 26.0 1.494 6 112.88 50883322
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
15. 06|14
Thread milling insert – Full profile
with Holder 50 805 010 / 50 805 011 maximum pitch of 3 is mm possible!
PLG = Polygon size
Polygon
IR/IL
60°
UNC
1
PLG
Tmax
Ti 500
Solid carbide
W2
PLG p d1
T max.
Z Article no.
TDIN IC PDPT ZEFP 50 886 ...
1/" mm mm £
6
12 9.6 1.228 3 116.08 50886202
11 10.5 1.355 3 116.08 50886204
10 11.7 1.485 3 116.08 50886206
7 9 16.0 1.577 6 131.92 50886212
9
8 18.0 1.809 6 135.88 50886222
7 20.0 2.043 6 135.88 50886224
10
6 24.0 2.454 6 139.94 50886232
5 26.0 2.979 6 139.94 50886234
4,5 26.0 3.289 6 139.94 50886236
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
Thread milling insert – Full profile
with Holder 50 805 010 / 50 805 011 maximum pitch of 3 is mm possible!
PLG = Polygon size
Polygon
IR/IL
60°
UNF
1
PLG
Tmax
Ti 500
Solid carbide
W2
PLG Thread d1
T max.
Z Article no.
TDIN IC PDPT ZEFP 50 886 ...
mm mm £
6
1/2 - 20 9.6 0.733 3 116.08 50886302
9/16 - 18 10.5 0.827 3 116.08 50886304
3/4 - 16 11.7 0.945 3 116.08 50886306
7 7/8 - 14 17.7 1.071 6 129.30 50886312
9 1 - 12 20.0 1.228 6 129.30 50886322
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
Circular and Thread Milling
System Polygon
16. 06|15
6
Gear cutters, DIN 5480
ZW
= Tooth Number Wave
PLG = Polygon size
Polygon
Tmax
d1
PLG
b
30°
Ti 500
Solid carbide
W2
PLG Wave module Z W
b d1
T max.
Z Article no.
CW IC PDPT ZEFP 50 874 ...
mm mm mm £
7
W11 0,8 12 3 15.85 0.8 6 91.23 50874011
W14 0,8 16 3 16.00 0.8 6 91.23 50874014
W16 0,8 18 3 16.00 0.8 6 91.23 50874016
W20 0,8 24 3 16.00 0.8 6 91.23 50874020
W24 1,25 18 4 16.00 1.25 6 98.35 50874024
W25 2 11 7 16.00 2.0 3 112.49 50874025
W30 1,25 22 4 16.00 1.25 6 98.35 50874031
W30 1,25 20 5 16.00 1.25 6 98.35 50874030
W35 2 16 5 16.00 2.0 6 101.21 50874035
W42 1,25 32 4 16.00 1.25 6 98.35 50874042
W50 2 24 5 16.00 2.0 6 101.21 50874050
Gear cutters, DIN 5481
ZW
= Tooth Number Wave
PLG = Polygon size
Polygon
r
b
d1
60°
PLG
Tmax
Ti 500
Solid carbide
W2
PLG Wave Z W
b d1
r T max.
Z Article no.
CW IC CRE PDPT ZEFP 50 874 ...
mm mm mm mm £
10
26 x 30 35 3 26 0.3 1.638 6 91.23 50874126
40 x 44 38 3 26 0.4 1.94 6 91.23 50874140
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
17. 06|16
Gear cutters, DIN 5482
ZW
= Tooth Number Wave
PLG = Polygon size
Polygon
b
30°
PLG
d1
Tmax
Ti 500
Solid carbide
W2
PLG nominal
dimension
module Z W
b d1
T max.
Z Article no.
CW IC PDPT ZEFP 50 874 ...
mm mm mm £
7
15 x 12 1,6 8 3.0 16 1.5 6 101.21 50874215
17 x 14 1,6 9 5.0 16 1.5 6 91.23 50874217
20 x 17 1,6 12 5.0 16 1.5 6 91.23 50874220
25 x 22 1,6 14 5.0 16 1.65 6 101.21 50874225
10
35 x 31 1,75 18 6.5 26 2.0 6 105.37 50874235
55 x 50 2 26 6.5 26 2.75 6 105.37 50874255
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
19. 06|18
Poloygon circular screw-in milling cutter
PLG = Polygon size
PLG 7 = for d1
16; 17,7
PLG 10 = for d1
25; 26
Steel Version
Polygon
d3
l3
A
Tmax
M
d1
d2h6
l4
PLG
W1
PLG T max.
l3
d2 h6
A d3
l4
M Mmax.
Article no.
PDPT LH DCONMS LPR BD CZCMS 50 799 ...
mm mm mm mm mm mm Nm £
7 3.5 16.0 8.5 26.0 9.0 5.5 M8 25 249.72 50799002
10 5.7 25.5 12.5 38.5 13.6 5.0 M12 60 249.72 50799012
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 960 ...
PLG £ £
7 T08 - IP 12.06 80950125 M3x13 5.24 70960231
10 T20 - IP 14.79 80950129 M5x13,5 5.24 70960243
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System Polygon
23. 06|22
MiniMill – Milling insert for groove milling (Specialist for aluminium)
Mini
Mill
≥
Ø32
mm
CWX
500
20°
3°
3°
W2
Size Dmin
b +0,02
T max.
s r Z Article no.
DAXN CW PDPT S RETR ZEFP 53 007 ...
mm mm mm mm £
28
32 2.0 8.5 6.5 0.2 3 77.14 53007920
32 2.5 8.5 6.5 0.2 3 77.14 53007925
32 3.0 8.5 6.5 0.2 3 77.14 53007930
Steel
Stainless steel
Cast iron
Non ferrous metals ●
Heat resistant alloys
hardened materials
→ vc
/fz
Page 68
MiniMill – Milling insert for groove milling with full radius
Mini
Mill
≥
Ø12
mm
CWX
500
15°
3°
3°
W2
Size Dmin
b +0,03
T max.
s r Z Article no.
DAXN CW PDPT S RETR ZEFP 53 008 ...
mm mm mm mm £
10 12 2.2 2.5 3.50 1.1 3 69.12 53008011
14 16 2.2 3.5 4.60 1.1 3 70.47 53008111
18 18 2.2 3.5 5.75 1.1 3 71.70 53008211
22
22 1.0 4.5 5.75 0.5 3 41.78 53008305
22 1.6 4.5 5.75 0.8 3 42.48 53008308
22 2.0 4.5 5.75 1.0 3 41.78 53008310
22 2.4 4.5 5.75 1.2 3 43.31 53008312
22 2.8 4.5 5.75 1.4 3 71.70 53008314
22 3.0 4.5 5.75 1.5 3 41.78 53008315
22 4.0 4.5 5.75 2.0 3 41.78 53008320
22 4.4 4.5 5.75 2.2 3 43.07 53008322
22 5.0 4.5 5.75 2.5 3 44.69 53008325
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
→ vc
/fz
Page 68
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System MiniMill
24. 6
06|23
MiniMill – Milling insert for groove milling and chamfering
Mini
Mill
≥
Ø10
mm
CWX
500
5°
α
α
W2
Size Dmin
b +0,03
T max.
s α° f Z Article no.
DAXN CW PDPT S KCHL PDX ZEFP 53 009 ...
mm mm mm mm £
10
10 0.2 0.35 3.60 15 1.80 6 54.79 53009015
10 0.2 0.45 3.60 20 1.80 6 54.79 53009020
10 0.2 0.7 3.60 30 1.80 6 54.79 53009030
10 0.2 1.2 3.60 45 1.80 6 54.79 53009045
12 1.2 0.8 3.50 45 1.20 3 46.48 53009035
14 16 1.4 1.2 4.50 45 1.60 3 47.86 53009145
18
18 0.2 2.2 5.75 45 3.00 6 60.72 53009259
18 2.5 1.4 5.85 45 1.70 3 48.60 53009258
22
22 0.2 2.5 6.40 45 3.90 6 132.40 53009463
22 2.0 1.7 5.85 45 2.00 3 51.56 53009358
22 3.0 3.0 9.40 45 3.25 3 54.04 53009394 1)
28 28 0.2 1.9 6.05 45 3.75 6 66.05 53009560
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
1) Use clamping screw 73 082 006 → vc
/fz
Page 68
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System MiniMill
25. 06|24
MiniMill – Milling insert for part-off
tmax.
= 12,0 mm in combination with holder 53 003 624
reduce feed rate by 50 %
Mini
Mill
≥
Ø37
mm
CWX
500
3°
T
3°
W2
Size Dmin
b +0,02
T max.
s r Z Article no.
DAXN CW PDPT S RETR ZEFP 53 013 ...
mm mm mm mm £
22
37 0.5 12.0 5.6 6 101.25 53013705 1)
37 0.6 12.0 5.7 6 95.87 53013706 1)
37 0.8 12.0 6.0 6 94.60 53013708 1)
37 1.0 12.0 6.2 0.1 6 97.35 53013710
37 1.5 12.0 6.2 0.1 6 83.07 53013715
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
1) The end face is not ground free to the center → vc
/fz
Page 68
MiniMill – Set for cut off
Size 22
Mini
Mill
W1
Article no.
Tool Designation Article number
Hole-Ø
Piece
53 014 ...
mm £
Inserts Milling inserts for separating 53 013 715 37 2
272.59 53014990
Tool holder Endmill short 53 003 624 1
Screw M5x12 73 082 005 1
Tightening Key T20 1
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System MiniMill
30. 6
06|29
Milling inserts for circlip grooves without chamfer
System
300 DIN 471/472
Ti 500
d1
Tmax
b
r
S
S2
S2
S1
Solid carbide
W2
Size nominal width d1
s b -0,03
T max.
r S2 H13
S1
Article no.
IC W1 CW PDPT RETR 50 853 ...
mm mm mm mm mm mm mm mm £
04 0.90 7.9 2.34 0.98 0.7 0.3 0.90 0.80 46.48 50853300
03
0.90 10.6 2.34 0.98 0.7 0.3 0.90 0.80 38.47 50853302
1.10 10.6 2.34 1.18 0.9 0.3 1.10 1.00 38.47 50853304
1.30 10.6 2.34 1.38 1.1 0.3 1.30 1.20 38.47 50853306
1.60 10.6 2.34 1.68 1.25 0.3 1.60 1.50 38.47 50853308
1.85 10.6 2.34 1.93 1.25 0.3 1.85 1.75 38.47 50853310
02
0.90 17.5 3.50 0.98 0.7 0.3 0.90 0.80 35.05 50853312
1.10 17.5 3.50 1.18 0.9 0.3 1.10 1.00 35.05 50853314
1.30 17.5 3.50 1.38 1.1 0.3 1.30 1.20 35.05 50853316
1.60 17.5 3.50 1.68 1.25 0.3 1.60 1.50 35.05 50853318
1.85 17.5 3.50 1.93 1.25 0.3 1.85 1.75 35.05 50853320
2.15 17.5 3.50 2.23 1.75 0.3 2.15 2.00 35.05 50853322
2.65 17.5 3.50 2.73 1.75 0.3 2.65 2.50 35.05 50853324
3.15 17.5 3.50 3.23 2.2 0.3 3.15 3.00 35.05 50853326
01
0.90 23.0 4.00 0.98 0.7 0.3 0.90 0.80 35.05 50853328
1.10 23.0 4.00 1.18 0.9 0.3 1.10 1.00 35.05 50853330
1.30 23.0 4.00 1.38 1.1 0.3 1.30 1.20 35.05 50853332
1.60 23.0 4.00 1.68 1.25 0.3 1.60 1.50 35.05 50853334
1.85 23.0 4.00 1.93 1.25 0.3 1.85 1.75 35.05 50853336
2.15 23.0 4.00 2.23 1.75 0.3 2.15 2.00 35.05 50853338
2.65 23.0 4.00 2.73 1.75 0.3 2.65 2.50 35.05 50853340
3.15 23.0 4.00 3.23 2.2 0.3 3.15 3.00 35.05 50853342
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System 300
31. 06|30
Milling inserts for circlip grooves with chamfer
System
300 DIN 471/472
Ti 500
b
S
d1
S2
S1
S2
T
Solid carbide
W2
Size nominal width d1
s b -0,03
T c S2 H13
S1
Article no.
IC W1 CW CHWTR 50 852 ...
mm mm mm mm mm mm mm mm £
03 1.10 10.6 2.34 1.18 0.50 0.10 1.10 1.00 41.16 50852302
02
1.10 17.5 3.50 1.18 0.50 0.10 1.10 1.00 36.43 50852312
1.30 17.5 3.50 1.38 0.85 0.15 1.30 1.20 36.43 50852314
1.60 17.5 3.50 1.68 1.00 0.15 1.60 1.50 36.43 50852316
1.85 17.5 3.50 1.93 1.25 0.20 1.85 1.75 36.43 50852317
2.15 17.5 3.50 2.23 1.50 0.20 2.15 2.00 36.43 50852318
2.65 17.5 3.50 2.73 1.50 0.20 2.65 2.50 36.43 50852319
01
1.10 23.0 4.00 1.18 0.50 0.10 1.10 1.00 36.43 50852320
1.30 23.0 4.00 1.38 0.70 0.15 1.30 1.20 36.43 50852321
1.30 23.0 4.00 1.38 0.85 0.15 1.30 1.20 36.43 50852322
1.60 23.0 4.00 1.68 1.00 0.15 1.60 1.50 36.43 50852324
1.60 23.0 4.00 1.68 0.85 0.15 1.60 1.50 36.43 50852323
1.85 23.0 4.00 1.93 1.25 0.20 1.85 1.75 36.43 50852325
2.15 23.0 4.00 2.23 1.50 0.20 2.15 2.00 36.43 50852326
2.65 23.0 4.00 2.73 1.75 0.20 2.65 2.50 36.43 50852328
2.65 23.0 4.00 2.73 1.50 0.20 2.65 2.50 36.43 50852327
3.15 23.0 4.00 3.32 1.75 0.20 3.15 3.00 36.43 50852329
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System 300
32. 6
06|31
Milling inserts without profile, ground ready-for-use
System
300 Ti 500
Tmax
b
d1
S
Solid carbide
W2
Size b +0,02
d1
s T max.
Article no.
CW IC W1 PDPT 50 851 ...
mm mm mm mm £
04 2.00 7.9 2.34 0.35 46.48 50851302
03
2.34 10.6 2.34 1.6 38.47 50851304
3.00 10.6 3.00 1.6 41.16 50851306
02
3.50 17.5 3.50 2.6 35.05 50851312
5.00 17.5 5.00 2.6 41.16 50851314
6.00 17.5 6.00 2.6 44.45 50851316
01
4.00 23.0 4.00 3.45 43.23 50851322 1)
6.50 23.0 6.50 3.45 43.23 50851324 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
1) with circular milling cutter 50 800 090 Tmax.
= 3.0 mm → vc
/fz
Page 67
Milling inserts for chamfering and deburring
System
300 Ti 500
S
d1
Tmax
Solid carbide
W2
Size T max.
d1
s Article no.
PDPT IC W1 50 857 ...
mm mm mm £
03 1.5 10.6 3.0 38.47 50857304
02 2.5 17.5 5.0 38.47 50857314
01 3.25 23.0 6.5 38.47 50857322 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
1) with circular milling cutter 50 800 090 Tmax.
= 3.0 mm → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System 300
33. 06|32
Thread milling insert – Partial profile
System
300
+
60°
Ti 500
S
d1
Solid carbide
W2
Size p d1
s Article no.
IC W1 50 855 ...
mm mm mm £
02 1 - 3,5 17.5 3.5 43.23 50855314
01 1 - 4,0 23.0 4.0 43.23 50855324
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
→ vc
/fz
Page 67
Thread milling insert – Full profile
System
300
IR/IL
60°
M MF
Ti 500
S
d1
Tmax
Solid carbide
W2
Size p d1
s T max.
Article no.
TP IC W1 PDPT 50 859 ...
mm mm mm mm £
03
1.0 10.6 2.34 0.578 52.46 50859304
1.5 10.6 2.34 0.864 52.46 50859308
2.0 10.6 2.34 1.159 52.46 50859310
02
1.0 17.5 3.50 0.578 52.46 50859311
1.5 17.5 3.50 0.864 52.46 50859312
2.0 17.5 3.50 1.159 52.46 50859314
2.5 16.0 3.50 1.444 72.47 50859317 1)
2.5 17.5 3.50 1.444 52.46 50859316
3.0 17.5 3.50 1.728 65.82 50859318
01
1.0 23.0 4.00 0.578 54.63 50859320
1.5 23.0 4.00 0.864 54.63 50859322
2.0 23.0 4.00 1.159 54.63 50859324
2.5 23.0 4.00 1.444 54.63 50859326
3.0 23.0 4.00 1.728 54.63 50859328
3.5 23.0 4.00 2.023 54.63 50859330
4.0 23.0 4.00 2.308 54.63 50859332
4.5 23.0 6.50 2.602 62.65 50859334
5.0 23.0 6.50 2.887 62.65 50859336
6.0 23.0 6.50 3.467 62.65 50859338 2)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
1) M20x2,5 – profile corrected → vc
/fz
Page 67
2) with circular milling cutter 50 800 090 Tmax.
= 3.0 mm
Circular and Thread Milling
System 300
34. 6
06|33
Thread milling insert – Full profile
System
300
+
55°
G BSW BSF
Ti 500
S
d1
Tmax
Solid carbide
W2
Size p p d1
s T max.
Article no.
TP TDIN IC W1 PDPT 50 858 ...
mm 1/" mm mm mm £
02
1.814 14 17.5 3.5 1.162 52.46 50858314
2.309 11 17.5 3.5 1.494 52.46 50858312
01 2.309 11 23.0 4.0 1.494 54.63 50858322
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ○
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System 300
35. 06|34
Circular milling cutter
Size refers to milling inserts
System
300
l3
d3
Tmax
l1
d1
d0
d2
HB
W1
Size d1
T max.
l3
d2 h6
l1
d3
d0
Article no.
IC PDPT LH DCONMS OAL BD DAXN 50 800 ...
mm mm mm mm mm mm mm £
04 7.9 0.35 17.2 10 57.20 7.1 8 129.80 50800015 1)
03
10.6 1.60 17.2 10 57.20 7.4 11 133.40 50800020 1)
10.6 1.60 34.2 10 74.20 7.4 11 288.04 50800025 2)
02
17.5 2.60 63.7 12 108.70 12.0 20 304.60 50800045 2)
17.5 2.60 28.7 12 74.05 12.0 20 142.16 50800030
01
23.0 3.45 67.5 16 116.00 16.1 25 149.28 50800070
23.0 3.00 88.5 16 137.00 17.0 25 321.04 50800090 2)
23.0 3.45 38.5 16 87.00 16.1 25 149.33 50800050
1) Without Through Coolant
2) Carbide version
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 960 ...
For Article no. £ £
50 800 015 T06 - IP 12.22 80950123 M2x9 3.48 70960232
50 800 020 T06 - IP 12.22 80950123 M2x9 3.48 70960232
50 800 025 T06 - IP 12.22 80950123 M2x9 3.48 70960232
50 800 045 T15 - IP 14.09 80950128 M4x12,3 5.24 70960233
50 800 030 T15 - IP 14.09 80950128 M4x12,3 5.24 70960233
50 800 070 T20 - IP 14.79 80950129 M5x15 5.24 70960234
50 800 090 T20 - IP 14.79 80950129 M5x15 5.24 70960234
50 800 050 T20 - IP 14.79 80950129 M5x15 5.24 70960234
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System 300
40. 06|39
6
Circular milling cutter NPT
Size refers to insert
MWN
NPT
l3
l1
d2
d3
d1
B
W1
Size d3
Thread l3
d2 h6
l1
d1
Article no.
BD TDIN LH DCONMS OAL IC 50 844 ...
mm mm mm mm mm £
16
12.5 NPT 1/2 22 16 90 15.5 188.22 50844161
15.0 NPT 3/4 - 1 1/4 23 20 85 19.0 206.44 50844162
27
24.0 NPT 1 1/2 - 2 52 25 110 30.0 261.47 50844271
31.0 NPT > 2 58 32 120 37.0 290.07 50844272
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 950 ...
Size £ £
16 T10 10.77 80950112 UNC5-40x8 1.58 70950202
27 T25 12.06 80950115 M5x15 2.47 70950203
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
41. 06|40
Thread milling insert
d1
corresponds to size
GZD
IR/IL
60°
M MF
Ti 500
l2
b
d1
Z
Solid carbide
W2
d1
p b l2
Z Article no.
DC TP W1 INSL ZEFF 50 863 ...
mm mm mm mm £
12
1.0 7.5 12.0 13 50.43 50863300
1.5 7.5 10.5 8 50.43 50863302
17
1.0 11.0 16.0 17 50.43 50863310
1.5 11.0 16.5 12 50.43 50863312
2.0 11.0 16.0 9 50.43 50863314
20
1.0 7.5 12.0 13 50.43 50863320
1.5 7.5 10.5 8 50.43 50863322
25
1.0 11.0 16.0 17 50.43 50863330
1.5 11.0 16.5 12 50.43 50863332
2.0 11.0 16.0 9 50.43 50863334
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys
hardened materials
→ vc
/fz
Page 67
Thread milling insert
d1
corresponds to size
GZD +
55°
G
Ti 500
l2
b
d1
Z
Solid carbide
W2
d1
p b l2
Z Article no.
DC TDIN W1 INSL ZEFF 50 864 ...
mm 1/" mm mm £
12 14 7.5 9.07 6 50.43 50864300
17
14 11.0 16.33 10 65.82 50864312 1)
14 11.0 16.33 10 65.82 50864314 2)
11 11.0 16.16 8 65.82 50864310
25 14 11.0 16.33 10 65.82 50864332
11 11.0 16.16 8 65.82 50864330
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys
hardened materials
1) Thread: 5/8 – 3/4 – 7/8 → vc
/fz
Page 67
2) 1/2" Profile corrected
Circular and Thread Milling
Thread milling cutters with indexable inserts
42. 06|41
6
Circular milling cutter
d1
corresponds to size
GZD
l3
d3
d2
d1
l1
Z
d0
B
W1
d1
l3
d2 h6
l1
d3
Z d0
Article no.
DC LH DCONMS OAL BD ZEFP DAXN 50 842 ...
mm mm mm mm mm mm £
12 18 16 74.0 9.4 1 14 155.02 50842121
17 30 16 79.0 13.7 1 19 171.23 50842171
20 32 20 83.0 17.5 3 22 205.87 50842201
25
50 25 107.6 21.7 3 26 255.07 50842251
85 25 142.6 21.7 3 26 725.85 50842252 1)
1) Heavy metal version with mounted head
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 960 ...
For Article no. £ £
50 842 121 T08 - IP 12.06 80950125 M2,5x6,5 3.48 70960244
50 842 171 T15 - IP 14.09 80950128 M4x7,5 3.48 70960245
50 842 201 T08 - IP 12.06 80950125 M2,5x6,5 3.48 70960244
50 842 251 T15 - IP 14.09 80950128 M4x7,5 3.48 70960245
50 842 252 T15 - IP 14.09 80950128 M4x7,5 3.48 70960245
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
43. 06|42
Thread milling insert
GZG
60°
M MF
ER/EL IR/IL
Ti 500 Ti 500
l2 s
b
Z
Solid carbide Solid carbide
W2 W2
Size p b l2
s Z Article no. Article no.
TP W1 INSL S ZEFF 50 887 ... 50 885 ...
mm mm mm mm mm £ £
14.5
0.50 10.0 13.50 3.18 28 80.21 50885350
0.75 10.0 13.50 3.18 19 80.21 50885352
1.00 10.0 13.00 3.18 14 60.49 50887304 46.48 50885354
1.25 10.0 12.50 3.18 11 60.49 50885356
1.50 10.0 12.00 3.18 9 60.49 50887308 46.48 50885358
1.75 10.0 12.25 3.18 8 60.49 50885360
2.00 10.0 12.00 3.18 7 60.49 50887312 46.48 50885362
2.50 10.0 10.00 3.18 5 54.63 50885364
2.50 10.0 10.00 3.18 5 54.63 50885366 1)
15.0
3.00 10.5 12.00 3.18 5 65.82 50885370
3.50 10.5 10.50 3.18 4 65.82 50885372
21.0
1.00 10.0 19.00 3.18 20 52.46 50885380
1.50 10.0 19.50 3.18 14 52.46 50885382
1.50 10.0 18.00 3.18 13 60.49 50887320
2.00 10.0 18.00 3.18 10 52.46 50885384
26.0
1.50 15.0 24.00 5.00 17 90.60 50885390
2.00 15.0 24.00 5.00 13 90.60 50885392
3.00 15.0 21.00 5.00 8 90.60 50885396
3.50 15.0 20.00 5.00 7 133.44 50885398
4.00 15.0 20.00 5.00 6 133.44 50885400
Steel ● ●
Stainless steel ● ●
Cast iron ● ●
Non ferrous metals ● ●
Heat resistant alloys
hardened materials
1) M20x2,5 – profile corrected → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
44. 06|43
6
Thread milling insert
GZG +
55°
G
Ti 500
l2 sb
Z
Solid carbide
W2
Size p p b l2
s Z Article no.
TDIN TP W1 INSL S ZEFF 50 888 ...
mm 1/" mm mm mm mm £
14.5
18 1.411 10 11.28 3.18 9 69.72 50888310
16 1.587 10 11.11 3.18 8 69.72 50888312
14 1.814 10 12.69 3.18 8 50.43 50888314
12 2.116 10 10.58 3.18 6 69.72 50888316
11 2.309 10 11.54 3.18 6 50.43 50888318
21.0
14 1.814 10 18.14 3.18 11 60.49 50888320
11 2.309 10 18.47 3.18 9 60.49 50888322
26.0 11 2.309 15 23.09 5.00 11 98.79 50888330
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys
hardened materials
→ vc
/fz
Page 67
Thread milling insert
GZG +
80°
Pg
Ti 500
l2 s
b
Z
Solid carbide
W2
Size p p b l2
s Z Article no.
TDIN TP W1 INSL S ZEFF 50 894 ...
mm 1/" mm mm mm mm £
14.5
18 1.411 10 12.69 3.18 10 74.13 50894302
16 1.587 10 11.11 3.18 8 74.13 50894304
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys
hardened materials
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
45. 06|44
Thread milling insert
GZG
IR/IL
60°
UN
Ti 500
l2 sb
Z
Solid carbide
W2
Size p p b l2
s Z Article no.
TDIN TP W1 INSL S ZEFF 50 889 ...
mm 1/" mm mm mm mm £
14.5
18 1.411 10 12.69 3.18 10 72.49 50889310
16 1.587 10 12.70 3.18 9 76.07 50889312
21.0
16 1.587 10 19.05 3.18 13 90.66 50889320
14 1.814 10 18.14 3.18 11 90.66 50889322
12 2.116 10 18.04 3.18 10 90.66 50889324
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys
hardened materials
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
46. 06|45
6
Circular milling cutter
Size refers to insert
GZG
l3
d3
l1
d1
d2
d0
B
W1
Size d1
l3
d2 h6
l1
d3
Z d0
Article no.
DC LH DCONMS OAL BD ZEFP DAXN 50 841 ...
mm mm mm mm mm mm £
14,5
16 30.0 16 78 12.7 1 18.5 143.10 50841016
16 50.0 16 98 12.7 1 18.5 225.99 50841017 1)
20 60.0 20 110 16.8 1 23.0 173.15 50841020
25 48.2 25 106 21.5 2 30.0 249.67 50841025
25 92.2 25 150 21.5 2 30.0 511.81 50841026 1)
15
18 30.0 16 79 12.7 1 20.0 168.48 50841218
22 60.0 20 110 16.8 1 26.0 186.01 50841222
27 48.2 25 106 21.5 2 32.0 276.73 50841227
21
16 31.3 20 85 12.7 1 18.5 160.04 50841316
22 32.8 25 92 18.7 1 26.0 164.46 50841322
22 62.8 25 122 18.7 1 26.0 363.05 50841323 1)
28 38.3 32 102 24.7 2 35.0 315.42 50841328
28 78.3 32 142 24.5 2 35.0 1,253.36 50841327 1)
26 25 48.5 25 107 20.0 1 30.0 199.82 50841125
1) Heavy metal version
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 960 ...
For Article no. £ £
50 841 016 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 017 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 020 T15 - IP 14.09 80950128 M4x7,5 3.48 70960245
50 841 025 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 026 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 218 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 222 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 227 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 316 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 322 T15 - IP 14.09 80950128 M4x6,9 5.24 70960237
50 841 323 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 328 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 327 T15 - IP 14.09 80950128 M4x8 5.24 70960242
50 841 125 T15 - IP 14.09 80950128 M4x11,5 5.24 70960241
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
47. 06|46
Thread milling insert – partial profile
EAW
60°
M UN
TiN
l
h
Solid carbide
W2
d1
p p h l Article no.
DC S OAL 50 867 ...
mm mm 1/" mm mm £
16,5 1,5 - 3,0 16 - 10 5 7.0 64.78 50867115
18 2,5 - 3,5 10 - 7 5 7.8 64.78 50867225
55°
G
W2
d1
p p h l Article no.
DC TP TDIN S OAL 50 868 ...
mm mm 1/" mm mm £
16,5 1.814 14 5 7 79.32 50868114
Thread milling insert – partial profile
EAW
60°
M UN
TiN
l
h
Solid carbide
W2
d1
p p h l Article no.
DC S OAL 50 860 ...
mm mm 1/" mm mm £
23,85 1,5 -2,5 16 - 10 6.35 9.52 49.46 50860315
23,85 2,5 - 4,0 10 - 6 6.35 9.52 49.46 50860325
32,85 1,5 - 2,5 16 - 10 8.50 13.50 55.02 50860415
32,85 2,5 - 5,5 10 - 4,5 8.50 13.50 55.02 50860425
55°
G
W2
d1
p p h l Article no.
DC TP TDIN S OAL 50 861 ...
mm mm 1/" mm mm £
23,85 2.309 11 6.35 9.52 55.02 50861311
32,85 2.309 11 8.50 13.50 63.54 50861411
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
→ vc
/fz
Page 66
Circular and Thread Milling
Thread milling cutters with indexable inserts
48. 06|47
6
Circular milling cutter
Scope of supply:
including key
EAW
IR/IL
d2
d1
l3
l1
Z
B
W1
d1
Ø min p p l3
d2 h6
l1
Z Article no.
DC PHD LH DCONMS OAL ZEFP 50 848 ...
mm mm mm 1/" mm mm mm £
16,5 / 18,0 17,5 / 19,0 1,5 - 3,0 16 - 10 60 20 114 2 392.01 50848020
23,85 25,5 1,5 - 4,0 24 - 6 90 32 154 3 462.10 50848030
32,85 35,0 1,5 - 5,5 16 - 4,5 115 32 179 3 479.62 50848040
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 950 ...
For Article no. £ £
50 848 020 T07 - IP 12.06 80950124 M2,5x8,5 8.78 70950739
50 848 030 T07 - IP 12.06 80950124 M2,5x8,5 8.78 70950739
50 848 040 T09 - IP 13.20 80950126 M3x11 8.78 70950740
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
49. 06|48
Thread milling insert – partial profile
EWM
60°
M UN
TiN
l
h
Solid carbide
W2
d1
p p h l Article no.
DC S OAL 50 870 ...
mm mm 1/" mm mm £
40,25 1,5 - 3,0 16 - 9 9.5 15.50 63.34 50870515
40,25 3,0 - 6,0 9 - 4 9.5 15.50 63.34 50870530
52,55 / 66,55 1,5 - 3,0 16 - 9 12.5 19.00 68.64 50870615
52,55 / 66,55 3,0 - 6,0 9 - 4 12.5 19.00 68.64 50870630
92 6,0 - 8,0 4 14.3 28.58 112.16 50870760
55°
G
W2
d1
p p h l Article no.
DC TP TDIN S OAL 50 871 ...
mm mm 1/" mm mm £
40,25 2.309 11 9.5 15.5 72.43 50871511
52,55 2.309 11 12.5 19.0 84.31 50871611
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
→ vc
/fz
Page 66
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
50. 06|49
6
Circular milling cutter
EWM
IR/IL
d
l
l
3
1
1 DIN 69871
W1
d1
Dmin
p p l3
l1
SK Z Article no.
DC PHD LH OAL CCFMS ZEFP 50 849 ...
mm mm mm 1/" mm mm mm £
40.25 43 1,5 - 6,0 16 - 4,0 145 280.5 50 4 997.38 50849148
40.25 43 1,5 - 6,0 16 - 4,0 145 247.0 40 4 962.46 50849048
52.55 56 1,5 - 6,0 16 - 4,0 195 279.6 40 4 1,102.51 50849064
52.55 56 1,5 - 6,0 16 - 4,0 195 331.0 50 4 1,137.44 50849164
66.55 70,5 1,5 - 6,0 16 - 4,0 260 398.0 50 7 1,539.68 50849080
92.00 100 6,0 - 8,0 4,0 360 497.0 50 7 1,819.66 50849115
Y7 2A
Key D Clamping screw
Article no. Article no.
Spare parts 80 950 ... 70 950 ...
d1 £ £
40.25 T15 - IP 14.09 80950128 M4x13 8.78 70950741
52.55 T20 - IP 14.79 80950129 M5x15 8.78 70950742
66.55 T20 - IP 14.79 80950129 M5x15 8.78 70950742
92.00 T20 - IP 14.79 80950129 M5x15 8.78 70950742
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Thread milling cutters with indexable inserts
51. 06|50
MicroMill – Solid Carbide Circular End Milling Cutter
Micro
Mill
CWX
500
d0
Tmax.
b
l3
l1
d3
d2h6
d1
HA
Solid carbide
W1
d1
b ±0,02
T max.
l3
l1
d3
d2 h6
Z d0
Article no.
DC CW PDPT LU OAL DN DCONMS ZEFP DAXN 53 050 ...
mm mm mm mm mm mm mm mm £
5.8
0.7 0.8 15.2 58 3.8 6 3 6 54.38 53050070
0.8 0.8 15.2 58 3.8 6 3 6 54.38 53050080
0.9 0.8 15.2 58 3.8 6 3 6 54.38 53050090
1.0 0.8 15.2 58 3.8 6 3 6 54.38 53050100
1.5 0.8 15.2 58 3.8 6 3 6 54.38 53050150
7.8
0.7 1.2 25.4 68 5.0 8 3 8 68.61 53050170
0.8 1.2 25.4 68 5.0 8 3 8 68.61 53050180
0.9 1.2 25.4 68 5.0 8 3 8 68.61 53050190
1.0 1.2 25.4 68 5.0 8 3 8 68.61 53050200
1.5 1.2 25.4 68 5.0 8 3 8 68.61 53050250
2.0 1.2 25.4 68 5.0 8 3 8 68.61 53050300
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ○
hardened materials ○
→ vc
/fz
Page 68
MicroMill – Solid Carbide Circular End Milling Cutter
Micro
Mill
CWX
500
Tmax.
d3
d1
d0
l1
s
d2h6
l3
b
90°
HA
Solid carbide
W1
d1
s b T max.
l3
l1
d3
d2 h6
Z d0
Article no.
DC W1 CW PDPT LU OAL DN DCONMS ZEFP DAXN 53 051 ...
mm mm mm mm mm mm mm mm mm £
5.8
2 0.2 0.8 15.2 58 4.2 6 3 6 52.45 53051010
2 0.2 0.8 25.4 68 4.2 6 3 6 66.58 53051020
7.8
2 0.2 1.2 25.4 68 5.0 8 3 8 80.82 53051110
2 0.2 1.2 35.6 78 5.0 8 3 8 85.09 53051120
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ○
hardened materials ○
→ vc
/fz
Page 68
Circular and Thread Milling
System MicroMill
52. 06|51
6
MicroMill – Solid Carbide Circular Thread Milling Cutter – Partial profile
Micro
Mill
IR/IL
60°
M
CWX
500
l3
l1
d2h6
d3
d1
Tmax.
b
s
HA
Solid carbide
W1
Thread p d1
s b T max.
l3
l1
d3
d2 h6
Z Article no.
TD TP DC W1 CW PDPT LU OAL DN DCONMS ZEFP 53 052 ...
mm mm mm mm mm mm mm mm mm £
M1,6 0,35 1.18 0.40 0.04 0.19 4.0 32 0.64 3 3 63.90 53052160
M1,8 0,35 1.38 0.50 0.04 0.19 5.0 32 0.70 3 3 63.16 53052180
M2 0,4 1.50 0.56 0.05 0.22 5.0 32 0.90 3 4 70.34 53052200
M2,5 0,45 1.95 0.60 0.06 0.25 6.0 32 1.15 3 4 69.57 53052250
M3 0,5 2.40 0.60 0.06 0.27 7.0 32 1.60 3 4 68.94 53052300
M3,5 0,6 2.80 0.74 0.08 0.33 8.0 32 1.80 3 4 67.43 53052350
M4 0,7 3.10 0.82 0.09 0.38 9.0 44 1.98 5 4 73.22 53052400
M5 0,8 3.60 0.98 0.10 0.43 10.0 44 2.20 5 4 71.07 53052500
M6 1 4.10 0.98 0.13 0.54 12.2 44 2.70 5 4 69.57 53052600
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ○
hardened materials ○
→ vc
/fz
Page 68
MicroMill – Solid Carbide Circular Thread Milling Cutter – Partial profile
Micro
Mill
IR/IL
60°
CWX
500
l3
l1
d0
d3
d1
b
s
d2h6
Tmax.
HA
Solid carbide
W1
p d1
s b T max.
l3
l1
d3
d2 h6
Z d0
Article no.
DC W1 CW PDPT LU OAL DN DCONMS ZEFP DAXN 53 053 ...
mm mm mm mm mm mm mm mm mm mm £
0,5 - 1,5 5.8 2 0.06 0.91 15.2 58 3.5 6 3 6 56.74 53053010
0,5 - 1,5 7.8 2 0.06 0.91 25.4 68 5.5 8 3 8 75.14 53053110
1,0 - 2,0 7.8 2 0.12 1.19 25.4 68 5.0 8 3 8 75.14 53053120
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ○
hardened materials ○
→ vc
/fz
Page 68
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
System MicroMill
53. 06|52
Circular Thread Milling Cutter
UNI OSM
≤ 2xD
IR/IL
l2
d1
l3
l1
d2
d4
Z
60°
M
HB
Solid carbide
W1
d1
Thread p l2
l3
d2 h6
d4
l1
Z Article no.
DC TP APMX LU DCONMS TDN OAL ZEFP 50 815 ...
mm mm mm mm mm mm mm £
4.51 M6x1 - M7x1 1.00 4.1 16 8 3.41 60 3 334.89 50815060
6.23 M8x1,25 - M9x1,25 1.25 5.1 21 10 4.91 71 4 393.93 50815080
7.75 M10x1,5 - M11x1,5 1.50 6.0 26 10 6.11 76 4 379.02 50815100
9.16 M12x1,75 1.75 7.0 31 12 7.21 86 4 426.00 50815120
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 65
Circular Thread Milling Cutter
UNI OSM
≤ 2xD
IR/IL
l2
d1
l3
l1
d2
d4
Z
60°
UNF
HB
Solid carbide
W1
d1
Thread p l2
l3
d2 h6
d4
l1
Z Article no.
DC TDIN TP APMX LU DCONMS TDN OAL ZEFP 50 822 ...
mm mm mm mm mm mm mm £
4.66 UNF 1/4 - 28 0.907 3.70 17 8 3.62 60 3 390.70 50822025
5.64 UNF 5/16 - 24 1.058 4.25 22 10 4.48 76 4 431.86 50822031
7.14 UNF 3/8 - 24 1.058 4.25 26 10 6.00 76 4 431.86 50822037
8.45 UNF 7/16 - 20 1.270 5.15 33 12 7.06 86 4 481.83 50822043
11.27 UNF 9/16 - 18 1.411 5.75 41 16 9.72 98 4 657.96 50822056
12.38 UNF 5/8 - 18 1.411 5.75 42 16 10.83 98 4 734.40 50822062
15.38 UNF 3/4 - 16 1.588 6.30 51 20 13.65 111 5 778.41 50822075
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 65
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
54. 06|53
6
Circular Thread Milling Cutter
UNI OSM
≤ 3xD
IR/IL
l1
l3
l2
d2
d1
d4
Z
60°
M
HB
Solid carbide
W1
d1
Thread p l2
l3
d2 h6
d4
l1
Z Article no.
DC TP APMX LU DCONMS TDN OAL ZEFP 50 821 ...
mm mm mm mm mm mm mm £
4.51 M6x1 - M7x1 1.00 4.1 23 8 3.41 65 3 487.66 50821060
6.23 M8x1,25 - M9x1,25 1.25 5.1 30 10 4.91 80 4 534.65 50821080
7.75 M10x1,5 - M11x1,5 1.50 6.0 37 10 6.11 85 4 540.50 50821100
9.16 M12x1,75 1.75 7.0 43 12 7.21 100 4 581.64 50821120
11.08 M14x2 - M16x2 2.00 8.1 57 16 8.91 113 4 619.79 50821140
14.38 M18x2,5 - M20x2,5 2.50 10.0 71 20 11.71 129 5 763.74 50821180
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ○
hardened materials
→ vc
/fz
Page 65
Thread Milling Cutter
Available on request: M1 / M1,1 / M1,2 / M1,4 / M1,6 / M1,7 / M1,8 / M2 / M2,2 / M2,3 / M2,5 / M2,6 / M3
HR
IR/IL
OSM OSM
≤ 3xD
d2
d1
l3
l1
Z
60°
M
HA HB
Solid carbide Solid carbide
W1 W1
d1
Thread p l3
d2 h6
l1
Z Article no. Article no.
DC TP LU DCONMS OAL ZEFP 50 846 ... 50 847 ...
mm mm mm mm mm £ £
3.15 M4 0.70 9 6 55 3 294.01 50846040 297.65 50847040
4.00 M5 0.80 11 6 55 3 294.01 50846050 297.65 50847050
4.80 M6 - M7 1.00 16 8 60 3 301.14 50846060 304.51 50847060
6.40 M8 - M9 1.25 22 10 71 4 336.19 50846080 339.55 50847080
8.00 M10 - M12 1.50 26 10 76 4 339.55 50846100 343.08 50847100
9.60 M12 1.75 27 12 86 4 381.62 50846120 385.13 50847120
Steel ● ●
Stainless steel ● ●
Cast iron
Non ferrous metals ● ●
Heat resistant alloys ● ●
hardened materials ● ●
→ vc
/fz
Page 65
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
55. 06|54
Thread Milling Cutter with Chamfer Facet
SFSE
IR/IL
TiAlN
≤ 2xD
d2
l2
l1
d1
x
Z
l3 min
l5
ød5
30°
l2
ød1
60°
M
HA
Solid carbide
W1
d1
Thread p l1
l2
l3 min.
d2 h6
d5
l5
Z Article no.
DC TD TP OAL LU LS DCONMS ZEFP 50 811 ...
mm mm mm mm mm mm mm mm £
4.0 M5 0.80 62 11 36 8 5.3 11.16 3 247.66 50811050
4.7 M6 1.00 62 13 36 8 6.3 13.93 3 260.64 50811060
6.5 M8 1.25 74 18 40 10 8.3 18.62 3 286.52 50811080
8.0 M10 1.50 74 22 40 10 3 286.23 50811100 1)
10.0 M12 1.75 90 26 45 14 12.3 26.47 4 440.67 50811120
12.5 M16 2.00 100 35 48 16 4 522.97 50811160 2)
1) Without chamfer
2) Chamfer section at the front of the tool
60°
MF
W1
d1
Thread p l1
l2
l3 min.
d2 h6
d5
l5
Z Article no.
DC TD TP OAL LU LS DCONMS ZEFP 50 816 ...
mm mm mm mm mm mm mm mm £
6.5 M8x1 1.00 74 18 40 10 8.3 18.00 3 294.83 50816082
8.0 M10x1 1.00 74 22 40 10 3 287.18 50816102 1)
8.0 M10x1,25 1.25 74 22 40 10 3 286.23 50816103 1)
10.0 M12x1,25 1.25 90 26 45 14 12.3 26.61 4 440.67 50816123
10.0 M12x1,5 1.50 90 26 45 14 12.3 27.30 4 440.67 50816124
11.0 M14x1 1.00 100 31 48 16 14.3 32.70 4 522.97 50816142
11.0 M14x1,5 1.50 100 31 48 16 14.3 32.08 4 522.97 50816144
12.5 M16x1,5 1.50 100 35 48 16 4 525.57 50816164 2)
1) Without chamfer
2) Chamfer section at the front of the tool
55°
G
W1
d1
Thread p l1
l2
l3 min.
d2 h6
d5
l5
Z Article no.
DC TDIN TP OAL LU LS DCONMS ZEFP 50 818 ...
mm mm mm mm mm mm mm mm £
7.6 G1/8-28 0.907 80 20 45 12 10.0 20.97 3 394.52 50818018
11.0 G1/4-19 1.337 100 27 48 16 13.5 28.39 4 581.64 50818014
13.0 G3/8-19 1.337 100 34 48 16 4 581.64 50818038 1)
16.0 G1/2-14 1.814 110 44 50 20 5 822.54 50818012 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
1) Chamfer section at the front of the tool → vc
/fz
Page 65
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
56. 06|55
6
Thread Milling Cutter with Chamfer Facet
SFSE
IR/IL
TiAlN
≤ 2xD
d2
l2
l1
d1
x
Z
l3 min
l5
ød5
30°
l2
ød1
60°
UNC
HA
Solid carbide
W1
d1
Thread p l1
l2
l3 min.
d2 h6
d5
l5
Z Article no.
DC TDIN TP OAL LU LS DCONMS ZEFP 50 823 ...
mm mm mm mm mm mm mm mm £
4.7 UNC 1/4-20 1.270 62 14 36 8 6.65 15.14 3 260.64 50823014
6.1 UNC 5/16-18 1.411 74 17 40 10 8.25 18.23 3 325.59 50823516
7.6 UNC 3/8-16 1.588 80 21 45 12 9.83 22.05 3 390.70 50823038
8.8 UNC 7/16-14 1.814 90 24 45 14 11.43 25.21 3 484.81 50823716
10.1 UNC 1/2-13 1.954 90 26 45 14 13.00 27.67 4 484.81 50823012
11.4 UNC 9/16-12 2.117 100 31 48 16 14.61 32.15 4 581.64 50823916
12.7 UNC 5/8-11 2.309 100 34 48 16 4 581.64 50823058 1)
15.2 UNC 3/4-10 2.540 110 42 50 20 19.35 43.74 5 822.54 50823034
1) Chamfer section at the front of the tool
60°
UNF
W1
d1
Thread p l1
l2
l3 min.
d2 h6
d5
l5
Z Article no.
DC TDIN TP OAL LU LS DCONMS ZEFP 50 824 ...
mm mm mm mm mm mm mm mm £
4.7 UNF 1/4-28 0.907 62 14 36 8 6.65 15.59 3 269.66 50824014
6.1 UNF 5/16-24 1.058 74 17 40 10 8.25 18.05 3 319.83 50824516
7.6 UNF 3/8-24 1.058 80 21 45 12 9.83 22.30 3 390.70 50824038
8.8 UNF 7/16-20 1.270 90 24 45 14 11.43 25.49 3 484.81 50824716
10.1 UNF 1/2-20 1.270 90 26 45 14 13.00 28.46 4 484.81 50824012
11.4 UNF 9/16-18 1.411 100 31 48 16 14.61 33.03 4 581.64 50824916
12.7 UNF 5/8-18 1.411 100 34 48 16 4 599.26 50824058 1)
15.2 UNF 3/4-16 1.588 110 42 50 20 19.35 43.69 5 822.54 50824034
1) Chamfer section at the front of the tool
60°
NPT
W1
d1
Thread p l1
l2
l3 min.
d2 h6
Z Article no.
DC TDIN TP OAL LU LS DCONMS ZEFP 50 819 ...
mm mm mm mm mm mm £
5.8 NPT 1/16-27 0.941 62 10 36 8 3 333.55 50819116 1)
7.6 NPT 1/8-27 0.941 74 10 40 10 3 378.73 50819018 1)
10.1 NPT 1/4-18 1.411 90 15 45 14 3 555.28 50819014 1)
16.0 NPT 1/2-14 1.814 110 19 50 20 5 954.68 50819012 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
1) Without chamfer → vc
/fz
Page 65
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
57. 06|56
Thread milling cutter with chamfer facet
Profile-corrected
Hard machining to Ø d1
= 4 mm possible
Chamfer section at end of shank
SFSE
IR/IL
Ti 500
≤ 2xD
1
60°
M
HB
Solid carbide
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TD TP LU DCONMS OAL ZEFP 54 801 ...
mm mm mm mm mm £
4.00 M5 0.80 11 8 62 3 119.67 54801050 1)
4.80 M6 1.00 13 8 62 3 119.67 54801060 1)
6.50 M8 1.25 18 10 74 3 140.68 54801080
7.95 M10 1.50 22 12 80 3 166.90 54801100
9.90 M12 1.75 26 14 90 4 214.12 54801120
11.60 M14 2.00 31 16 100 4 245.65 54801140
11.95 M16 2.00 35 12 90 4 166.90 54801160 2)
13.95 M18 2.50 39 20 110 4 346.27 54801180
15.95 M20 2.50 44 16 100 4 245.65 54801200 2)
1) Without Through Coolant
2) Chamfer section at the front of the tool
60°
MF
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TD TP LU DCONMS OAL ZEFP 54 803 ...
mm mm mm mm mm £
6.0 M8X1 1.00 18 10 74 3 140.68 54803080
8.0 M10X1,00 1.00 22 12 80 3 166.90 54803100
8.0 M10X1,25 1.25 22 12 80 3 166.90 54803101
9.9 M12X1 1.00 26 14 90 4 214.12 54803120
9.9 M12X1,25 1.25 26 14 90 4 214.12 54803121
9.9 M12X1,5 1.50 26 14 90 4 214.12 54803122
11.6 M14X1 1.00 31 16 100 4 245.65 54803140
11.6 M14X1,5 1.50 31 16 100 4 253.91 54803141
12.0 M16X1,5 1.50 35 12 90 4 166.90 54803160 1)
14.0 M18X1,5 1.50 39 20 110 4 354.68 54803180
16.0 M20X1,5 1.50 44 16 100 4 214.12 54803200 1)
1) Chamfer section at the front of the tool
55°
G
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TDIN TP LU DCONMS OAL ZEFP 54 805 ...
mm mm mm mm mm £
6.00 G 1/16 - 28 0.907 16 10 74 3 182.60 54805116
7.95 G 1/8 - 28 0.907 20 12 80 3 193.10 54805018
9.90 G 1/4 - 19 1.337 27 16 100 4 274.92 54805014
13.95 G 3/8 - 19 1.337 34 14 90 4 237.23 54805038 1)
15.95 G 1/2 - 14 1.814 43 16 100 4 253.91 54805012 1)
17.95 G 5/8 - 14 1.814 47 18 110 4 354.68 54805058 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
1) Chamfer section at the front of the tool → vc
/fz
Page 67
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
58. 06|57
6
Thread milling cutter with chamfer facet
Profile-corrected
Hard machining to Ø d1
= 4 mm possible
Chamfer section at end of shank
SFSE
IR/IL
Ti 500
≤ 2xD
1
60°
UNC
HB
Solid carbide
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TDIN TP LU DCONMS OAL ZEFP 54 811 ...
mm mm mm mm mm £
4.80 UNC 1/4 - 20 1.270 14 8 62 3 140.68 54811014 1)
5.95 UNC 5/16 - 18 1.411 18 10 74 3 157.49 54811516
7.95 UNC 3/8 - 16 1.588 22 12 80 3 191.00 54811038
7.95 UNC 7/16 - 14 1.814 22 14 90 3 233.02 54811716
9.90 UNC 1/2 - 13 1.954 27 14 90 4 237.23 54811012
11.80 UNC 9/16 - 12 2,117 31 16 100 4 283.34 54811916
12.70 UNC 5/8 - 11 2,309 34 14 90 4 237.23 54811058 2)
15.20 UNC 3/4 - 10 2,540 38 20 110 5 407.20 54811034
1) Without Through Coolant
2) Chamfer section at the front of the tool
60°
UNF
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TDIN TP LU DCONMS OAL ZEFP 54 813 ...
mm mm mm mm mm £
4.80 UNF 1/4 - 28 0.907 14 8 62 3 140.68 54813014 1)
5.95 UNF 5/16 - 24 1.058 18 10 74 3 157.49 54813516
7.60 UNF 3/8 - 24 1.058 21 12 80 3 191.00 54813038
7.95 UNF 7/16 - 20 1.270 22 14 90 3 233.02 54813716
9.90 UNF 1/2 - 20 1.270 26 14 90 4 237.23 54813012
12.00 UNF 9/16 - 18 1.411 30 16 100 4 283.34 54813916
13.50 UNF 5/8 - 18 1.411 33 14 90 4 237.23 54813058 2)
17.00 UNF 3/4 - 16 1.588 38 20 110 5 407.20 54813034
1) Without Through Coolant
2) Chamfer section at the front of the tool
60°
NPT
W8
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TDIN TP LU DCONMS OAL ZEFP 54 809 ...
mm mm mm mm mm £
10.1 NPT 1/4 - 18 1.411 15 14 90 3 268.64 54809014 1)
12.8 NPT 3/8 - 18 1.411 15 16 100 4 323.27 54809038 1)
16.0 NPT 1/2 - 14 1.814 19 20 110 5 442.81 54809012 1)
18.5 NPT 3/4 - 14 1.814 19 20 110 5 442.81 54809034 1)
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
1) Chamfer section at the front of the tool → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
59. 06|58
Thread Milling Cutter
Available on request: M30, M36, M42, M48, M56, M64
SGF
IR/IL
TiAlN
≤ 2xD
1
Z
60°
M
HA
Solid carbide
W1
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TD TP LU DCONMS OAL ZEFP 50 825 ...
mm mm mm mm mm £
2.40 M3 0.50 6 4 42 3 218.85 50825030 1)
3.15 M4 0.70 8 6 55 3 235.52 50825040
4.00 M5 0.80 10 6 55 3 235.52 50825050
4.80 M6 1.00 12 6 55 3 235.52 50825060
6.00 M8 1.25 16 6 63 3 241.32 50825080
8.00 M10 1.50 20 8 70 3 275.06 50825100
9.90 M12 1.75 24 10 80 4 333.55 50825120
11.60 M14 2.00 28 12 90 4 392.57 50825140
12.00 M16 2.00 32 12 90 4 390.70 50825160
14.00 M18 2.50 36 14 90 4 518.16 50825180
14.00 M22 2.50 44 14 95 4 721.84 50825220
14.00 M20 2.50 40 14 90 4 588.51 50825200
1) Without Through Coolant
60°
MF
W1
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TD TP LU DCONMS OAL ZEFP 50 826 ...
mm mm mm mm mm £
3.35 M4x0,5 0.50 8 6 55 3 282.98 50826040
4.30 M5x0,5 0.50 10 6 55 3 282.98 50826050
5.00 M6x0,75 0.75 12 6 55 3 282.98 50826061
6.00 M8x0,75 0.75 16 6 63 3 282.98 50826081
6.00 M8x1 1.00 16 6 63 3 282.98 50826082
8.00 M10x1 1.00 20 8 70 3 282.98 50826102
10.00 M12x1 1.00 24 10 80 4 336.87 50826122
10.00 M12x1,5 1.50 24 10 80 4 336.87 50826124
10.00 M14x1,5 1.50 28 10 80 4 336.87 50826144
12.00 M16x1,5 1.50 32 12 90 4 411.86 50826164
14.00 M18x1,5 1.50 36 14 90 4 514.14 50826184
14.00 M20x1,5 1.50 40 14 90 4 514.34 50826204
14.00 M22x1,5 1.50 44 14 95 4 540.36 50826224
16.00 M24x1,5 1.50 36 16 90 5 601.37 50826244
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
→ vc
/fz
Page 66
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
60. 06|59
6
Thread Milling Cutter
Available on request: M30, M36, M42, M48, M56, M64
SGF
IR/IL
TiAlN
≤ 2xD
1
Z
55°
G
HA
Solid carbide
W1
d1
Thread p l2
d2 h6
l1
Z Article no.
DC TDIN TP LU DCONMS OAL ZEFP 50 827 ...
mm mm mm mm mm £
8.00 G 1/8-28 0.907 19.5 8 70 3 288.86 50827018
11.00 G 1/4-19 1.337 26.5 12 90 4 415.36 50827014
12.00 G 3/8-19 1.337 33.0 12 90 4 415.36 50827038
14.00 G 1/2-14 1.814 42.0 14 95 4 570.59 50827012
16.00 G 3/4-14 1.814 34.0 16 90 5 612.86 50827034
16.00 G 1-11 2.309 33.0 16 90 5 636.68 50827100
16.00 G 5/8-14 1.814 34.0 16 90 5 622.78 50827058
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials
→ vc
/fz
Page 66
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
61. 06|60
Thread milling cutter
Profile corrected
Hard machining to Ø d1
= 4 mm possible
SGF
IR/IL
Ti 500
≤ 2xD
1
d0
60°
M
HB
Solid carbide
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TD TP LU DCONMS OAL ZEFP DAXN 54 800 ...
mm mm mm mm mm mm £
2.40 M3 0.50 6.5 4 42 2 2.50 80.36 54800030 1)
3.15 M4 0.70 9.0 6 55 3 3.30 80.36 54800040 2)
4.00 M5 0.80 11.0 6 55 3 4.20 80.36 54800050 2)
4.80 M6 1.00 13.0 6 55 3 5.00 80.36 54800060 2)
6.00 M8 1.25 18.0 6 60 3 6.75 84.37 54800080
8.00 M10 1.50 21.0 8 70 3 8.50 102.00 54800100
9.90 M12 1.75 26.0 10 75 4 10.25 123.32 54800120
11.60 M14 2.00 30.0 12 85 4 12.00 142.80 54800140
12.00 M16 2.00 34.0 12 85 4 14.00 149.28 54800160
14.00 M18 2.50 40.0 14 90 4 15.50 176.78 54800180
16.00 M20 2.50 42.0 16 90 4 17.50 183.58 54800200
1) DIN 6535 HA Shank / Without Through Coolant
2) Without Through Coolant
60°
MF
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TD TP LU DCONMS OAL ZEFP DAXN 54 802 ...
mm mm mm mm mm mm £
4.0 M5 0.50 11 6 55 3 4.50 80.36 54802050 1)
4.8 M6 0.75 13 6 55 3 5.25 80.36 54802060 1)
6.0 M8 1.00 18 6 60 3 7.00 84.37 54802080
8.0 M10 1.25 21 8 70 3 8.75 102.00 54802100
9.9 M12 1.00 26 10 75 4 11.00 123.32 54802120
9.9 M12 1.25 26 10 75 4 10.75 123.32 54802121
9.9 M12 1.50 26 10 75 4 10.50 123.32 54802122
11.6 M14 1.00 30 12 85 4 13.00 142.80 54802140
11.6 M14 1.50 30 12 85 4 12.50 142.80 54802141
12.0 M16 1.50 34 12 85 4 14.50 149.28 54802160
14.0 M18 1.50 40 14 90 4 16.50 176.78 54802180
16.0 M20 1.50 42 16 90 4 18.50 183.58 54802200
1) DIN 6535 HA Shank / Without Through Coolant
55°
G
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TDIN TP LU DCONMS OAL ZEFP DAXN 54 804 ...
mm mm mm mm mm mm £
8.0 G 1/8 - 28 0.907 21 8 70 3 8.80 115.90 54804018
9.9 G 1/4 - 19 1.337 26 10 75 4 11.80 131.34 54804014
14.0 G 3/8 - 19 1.337 40 14 90 4 15.25 152.99 54804038
16.0 G 1/2 - 14 1.814 42 16 90 4 19.00 185.42 54804012
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
62. 06|61
6
Thread milling cutter
Profile corrected
SGF
IR/IL
Ti 500
≤ 2xD
1
d0
55°
BSW
HB
Solid carbide
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TDIN TP LU DCONMS OAL ZEFP DAXN 54 806 ...
mm mm mm mm mm mm £
6.0 BSW 5/16 - 18 1.411 18 6 60 3 6.50 97.35 54806516
6.0 BSW 3/8 - 16 1.588 18 6 60 3 7.90 98.89 54806038
8.0 BSW 7/16 - 14 1.814 21 8 70 3 9.25 116.83 54806716
8.0 BSW 1/2 - 12 2.117 21 8 70 3 10.50 116.94 54806012
9.9 BSW 5/8 - 11 2.309 26 10 75 4 13.50 136.29 54806058
55°
BSF
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TDIN TP LU DCONMS OAL ZEFP DAXN 54 808 ...
mm mm mm mm mm mm £
6.0 BSF 5/16 - 22 1.155 18 6 60 3 6.80 98.89 54808516
6.0 BSF 3/8 - 20 1.270 18 6 60 3 8.30 98.89 54808038
8.0 BSF 7/16 - 18 1.411 21 8 70 3 9.70 116.83 54808716
8.0 BSF 1/2 - 16 1.588 21 8 70 3 11.10 116.83 54808012
9.9 BSF 5/8 - 14 1.814 26 10 75 4 14.00 136.29 54808058
60°
UNC
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TDIN TP LU DCONMS OAL ZEFP DAXN 54 810 ...
mm mm mm mm mm mm £
4.80 UNC 1/4 - 20 1.270 13 6 55 3 5.10 93.84 54810014 1)
6.00 UNC 5/16 - 18 1.411 18 6 60 3 6.60 111.26 54810516
7.95 UNC 3/8 - 16 1.588 21 8 70 3 8.00 115.90 54810038
7.95 UNC 7/16 - 14 1.814 21 8 70 3 9.40 116.83 54810716
9.90 UNC 1/2 - 13 1.954 26 10 75 4 10.80 135.06 54810012
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
1) DIN 6535 HA Shank / Without Through Coolant → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
63. 06|62
Thread milling cutter
Profile corrected
SGF
IR/IL
Ti 500
≤ 2xD
1
d0
60°
UNF
HB
Solid carbide
W8
d1
Thread p l2
d2 h6
l1
Z d0
Article no.
DC TDIN TP LU DCONMS OAL ZEFP DAXN 54 812 ...
mm mm mm mm mm mm £
4.8 UNF 1/4 - 28 0.907 13 6 55 3 5.50 93.84 54812014 1)
6.0 UNF 5/16 - 24 1.058 18 6 60 3 6.90 97.35 54812516
8.0 UNF 3/8 - 24 1.058 21 8 70 3 8.50 116.94 54812038
8.0 UNF 7/16 - 20 1.270 21 8 70 3 9.90 116.94 54812716
9.9 UNF 1/2 - 20 1.270 26 10 75 4 11.50 115.90 54812012
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
1) Without Through Coolant → vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
64. 06|63
6
Thread milling cutter
SGF
IR/IL
Ti 500
≤ 2xD
d1
l2
d2
l1
d060°
M
HB
Solid carbide
W8
d1
p l2
d2 h6
l1
Z d0
Article no.
DC TP LU DCONMS OAL ZEFP DAXN 54 832 ...
mm mm mm mm mm mm £
8 0.50 12 8 70 3 10 305.79 54832008
8 0.75 12 8 70 3 11 305.79 54832080
10 1.00 16 10 75 4 14 309.38 54832100
10 1.50 16 10 75 4 14 309.38 54832101
12 1.00 20 12 85 4 16 377.73 54832120
12 1.50 20 12 85 4 16 377.73 54832121
12 2.00 20 12 85 4 18 377.73 54832122
16 1.00 25 16 90 5 22 510.82 54832160
16 1.50 25 16 90 5 22 467.65 54832161
16 2.00 25 16 90 5 22 518.01 54832162
16 3.00 25 16 90 5 24 525.20 54832164
Steel ●
Stainless steel ●
Cast iron ●
Non ferrous metals ●
Heat resistant alloys ●
hardened materials ●
→ vc
/fz
Page 67
When calculating the feedrate for circular milling it is important to know whether contour feed vf
or feed on the center path vfm
is used. Details on → Page 69+70.
Circular and Thread Milling
Solid Carbide Thread Milling Cutters
65. 06|64
Index Material
Strength Material
number
Material designation
Material
number
Material designation
Material
number
Material designation
N/mm² / HB / HRC
P
1.1 General construction steel < 800 N/mm2
1.0402 EN3B
1.2 Free cutting steel < 800 N/mm2
1.0711 EN1A
1.3 Hardened steel, non alloyed < 800 N/mm2
1.0401 EN32C
1.4 Alloyed hardened steel < 1000 N/mm2
1.7325 25 CD4
1.5 Tempering steel, unalloyed < 850 N/mm2
1.5752 EN36 1.0535 EN9
1.6 Tempering steel, unalloyed < 1000 N/mm2
1.6582 EN24
1.7 Tempering steel, alloyed < 800 N/mm2
1.7225 EN19
1.8 Tempering steel, alloyed < 1300 N/mm2
1.8515 EN40B
1.9 Steel castings < 850 N/mm2
0.9650 G-X 260 Cr 27 1.6750 GS-20 NiCrMo 3.7 1.6582 GS-34 CrNiMo 6
1.10 Nitriding steel < 1000 N/mm2
1.8509 EN41B
1.11 Nitriding steel < 1200 N/mm2
1.1186 EN8 1.1160 EN14A
1.12 Roller bearing steel < 1200 N/mm2
1.3505 534A99
1.13 Spring steel < 1200 N/mm2
EN45 EN47 EN43
1.14 High-speed steel < 1300 N/mm2
1.3343 M2 1.3249 M34
1.15 Cold working tool steel < 1300 N/mm2
1.2379 D2 1.2311 P20
1.16 Hot working tool steel < 1300 N/mm2
1.2344 H13
M
2.1 Cast steel and sulphured stainless steel < 850 N/mm2
1.4581 318
2.2 Stainless steel, ferritic < 750 N/mm2
1.4000 403
2.3 Stainless steel, martensitic < 900 N/mm2
1.4057 EN57
2.4 Stainless steel, ferritic / martensitic <1100 N/mm2
1.4028 EN56B
2.5 Stainless steel, austenitic / ferritic < 850 N/mm2
1.4542 17-4PH
2.6 Stainless steel, austenitic < 750 N/mm2
1.4305 303 1.4401 316 1.4301 304
2.7 Heat resistant steel < 1100 N/mm2
1.4876 Incoloy 800
K
3.1 Grey cast iron with lamellar graphite 100–350 N/mm2
0.6015 Grade 150 0.6020 Grade 220 0.6025 Grade 260
3.2 Grey cast iron with lamellar graphite 300–500 N/mm2
0.6030 Grade 300 0.6035 Grade 350 0.6040 Grade 400
3.3 Gray cast iron with spheroidal graphite 300–500 N/mm2
0.7040 SG 400-12 0.7043 SG 370-17 0.7050 SG 500-7
3.4 Gray cast iron with spheroidal graphite 500–900 N/mm2
0.7060 SG 600-3 0.7070 SG 700-2 0.7080 SG 800-2
3.5 White malleable cast iron 270–450 N/mm2
0.8035 GTW-35 0.8045 GTW-45
3.6 White malleable cast iron 500–650 N/mm2
0.8055 GTW-55 0.8065 GTW-65
3.7 Black malleable cast iron 300–450 N/mm2
0.8135 GTS-35 0.8145 GTS-45
3.8 Black malleable cast iron 500–800 N/mm2
0.8155 GTS-55 0.8170 GTS-70
N
4.1 Aluminium (non alloyed, low alloyed) < 350 N/mm2
3.0255 1050 A 3.0275 1070 A 3.0285 1080 A (A8)
4.2 Aluminium alloys < 0.5% Si < 500 N/mm2
3.1325 2017 A (AU4G) 3.4335 7005 (AZ5G) 3.4365 7075 (AZ5GU)
4.3 Aluminium alloy 0,5-10% Si < 400 N/mm2
3.2315 A- G S1 3.2373 A-S9 G 3.2151 A-S 6 U4
4.4 Aluminium alloys 10-15% Si < 400 N/mm2
3.2581 A-S12 3.2583 A-S12 U
4.5 Aluminum alloys > 15% Si < 400 N/mm2
A-S18 A-S17 U4
4.6 Copper (non alloyed, low alloyed) < 350 N/mm2
2.0040 Cu-c1 2.0060 Cu-a1 2.0090 Cu-b1
4.7 Copper wrought alloys < 700 N/mm2
2.1247 Cub2 (Berylium Copper) 2.0855 CuN2S (Nickel Copper) 2.1310 CU-Fe2P
4.8 Special copper alloys < 200 HB 2.0916 Cu-A5 2.1525 Cu-S3 M Ampco 8 (Cu-A6Fe2)
4.9 Special copper alloys < 300 HB 2.0978 Cu-Al11 Fe5 Ni5) Ampco 18 (Cu- A10 Fe3)
4.10 Special copper alloys > 300 HB 2.1247 Cu Be2 Ampco M4
4.11 Short-chipping brass, bronze, red bronze < 600 N/mm2
2.0331 Cu Zn36 Pb1,5 2.0380 Cu Zn39 Pb2 (Ms 56) 2.0410 Cu Zn44 Pb2
4.12 Long-chipping brass < 600 N/mm2
2.0335 Cu Zn 36 (Ms63) 2.1293 Cu Cr1 Zr
4.13 Thermoplastics PE PVC PS Polystyrene Plexiglas
4.14 Duroplastics PF Bakelite Pertinax
4.15 Fibre-reinforced plastics Carbon Fibre Fibreglass Aramid Fibre (Kevlar)
4.16 Magnesium and magnesium alloys < 850 N/mm2
3.5812 Mg A7 Z1 3.5662 Mg A9 3.5105 Mg Tr3 Z2 Zn 1
4.17 Graphite R8500X R8650 Technograph 15
4.18 Tungsten and tungsten alloys W-Ni Fe (Densimet) W- Ni Cu (Inermet) Denal
4.19 Molybdenum and molybdenum alloys TZM MHQ Mo W
S
5.1 Pure nickel 2.4066 Ni99 (Nickel 200) 2.4068 Lc Ni99 (Nickel 201)
5.2 Nickel alloys 1.3912 Fe-Ni36 (Invar) 1.3917 Fe -Ni42 (N42) 1.3922 Fe-Ni48 (N48)
5.3 Nickel alloys < 850 N/mm2
2.4375 Ni Cu30 Al (Monel K500) 2.4360 Ni Cu30Fe (Monel 400) 2.4668
5.4 Nickel molybdenum alloys 2.4600 Ni Mo30Cr2 (Hastelloy B4) 2.4617 Ni Mo28 (Hastelloy B2) 2.4819 Ni Mo16Cr16 Hastell. C276
5.5 Nickel-chromium alloys < 1300 N/mm2
2.4951 Ni Cr20TiAl (Nimonic 80A) 2.4858 Ni Cr21Mo (Inconel 825) 2.4856 Ni Cr22Mo9Nb Inconel 625
5.6 Cobalt Chrome Alloys < 1300 N/mm2
2.4964 Co Cr20 W15 Ni10 Co Cr20 Ni16 Mo7 Co Cr28 Mo 6
5.7 Heat resistant alloys < 1300 N/mm2
1.4718 Z45 C S 9-3 1.4747 Z80 CSN 20-02 1.4845 Z12 CN 25-20
5.8 Nickel-cobalt-chromium alloys < 1400 N/mm2
2.4851 Ni Cr23Fe (Inconel 601) 2.4668 Ni Cr19NbMo (Inconel 718) 2.4602 Ni Cr21Mo14 Hastelloy C22
5.9 Pure titanium < 900 N/mm2
3.7025 T35 (Titanium Grade 1) 3.7034 T40 (Titanium Grade 2) 3.7064 T60 (Titanium Grade 4)
5.10 Titanium alloys < 700 N/mm2
T-A6-Nb7 (367) T-A5-Sn2-Mo4-Cr4 (Ti17) T-A3-V2,5 (Gr18)
5.11 Titanium alloys < 1200 N/mm2
3.7165 T-A6-V4 (Ta6V) T-A4-3V-Mo2-Fe2 (SP700) T-A5-Sn1-Zr1-V1-Mo (Gr32)
H
6.1
Tempered steel
< 45 HRC
6.2 46–55 HRC
6.3 56–60 HRC
6.4 61–65 HRC
6.5 65–70 HRC
Material examples referring to the WNT cutting data tables
Circular and Thread Milling
Cutting Data