CS Unitec offers ROLEI series, a line of deburring equipment for grinding, deburring, chamfering and faceting. It also carries DS301 planetary sander/polisher that will grind, hone, polish and clean concrete, terrazzo, marble, granite and corian surfaces using coated abrasives, diamond polishing systems and lightweight diamond wheels.
Grinding is a material removal process that uses an abrasive tool consisting of grains of abrasive material known as grits. The grits are held together by a bonding material to form the grinding wheel. Grinding provides advantages like dimensional accuracy, good surface finish, and form accuracy. It is used for applications such as surface finishing, deburring, and grinding of tools and cutters. Grinding wheels are characterized by the abrasive grains, bond material, grain size, and wheel structure. Proper selection of grinding wheel composition depends on factors like the work material and grinding conditions. Truing and dressing maintain the grinding wheel geometry and condition the cutting edges of abrasive grains.
Norton lanseeraa uuden Quantum lamellilaikan, joka parannetuilla ominaisuuksillaan sopii erityisesti vaativaan hiontaan ja korkean hiomapaineen kulmien pyöristykseen.
The document provides an overview of Flexovit, a manufacturer of bonded abrasive wheels. It discusses Flexovit's location in Angola, NY and 100,000 square foot manufacturing facility. The document also covers abrasive wheel components such as abrasive grains, resin bonds, fiberglass reinforcement and grinding wheel specifications. It explains the four main abrasive grain types and how bonded abrasive wheels cut material by revealing fresh abrasive grains as the wheel wears.
The presentation provides an insight to the topic of grinding machines and abrasives. It introduces the topic in an easy and lucid way so that the viewers can easily grasp the concepts.
The document discusses the selection and specification of grinding wheels. It covers the types of abrasives like aluminum oxide, silicon carbide, diamond, and cBN and their characteristics and applications. It also discusses factors like grit size, grade or hardness of the wheel, structure or concentration, and type of bond that need to be considered when selecting a grinding wheel based on the material and grinding conditions. The key parameters that determine the wheel selection are the properties of the workpiece material, the type of grinding operation, and the desired material removal rate and surface finish.
The document discusses the basics of grinding, including:
1) Grinding is used to shape and finish metal components to a higher precision than other processes like turning or milling.
2) Grinding wheels are composed of abrasive grains held in a binder that act as cutting tools to remove small chips of material.
3) The main types of grinding are cylindrical, internal, centerless, and surface grinding which produce different surface features.
Grinding is a material removal process that uses an abrasive wheel to remove material from a workpiece. The abrasive wheel consists of bonded abrasive grains that cut through the workpiece material. Grinding provides high accuracy and surface finish. It is used for processes like surface finishing, deburring, and tool sharpening. The grinding wheel specifications include the abrasive material, grit size, bond hardness, structure, and bond type. Proper selection of the grinding wheel depends on factors like the work material properties and grinding conditions. Truing and dressing maintain the geometry and cutting ability of the grinding wheel.
Grinding is a material removal process that uses an abrasive tool consisting of grains of abrasive material known as grits. The grits are held together by a bonding material to form the grinding wheel. Grinding provides advantages like dimensional accuracy, good surface finish, and form accuracy. It is used for applications such as surface finishing, deburring, and grinding of tools and cutters. Grinding wheels are characterized by the abrasive grains, bond material, grain size, and wheel structure. Proper selection of grinding wheel composition depends on factors like the work material and grinding conditions. Truing and dressing maintain the grinding wheel geometry and condition the cutting edges of abrasive grains.
Norton lanseeraa uuden Quantum lamellilaikan, joka parannetuilla ominaisuuksillaan sopii erityisesti vaativaan hiontaan ja korkean hiomapaineen kulmien pyöristykseen.
The document provides an overview of Flexovit, a manufacturer of bonded abrasive wheels. It discusses Flexovit's location in Angola, NY and 100,000 square foot manufacturing facility. The document also covers abrasive wheel components such as abrasive grains, resin bonds, fiberglass reinforcement and grinding wheel specifications. It explains the four main abrasive grain types and how bonded abrasive wheels cut material by revealing fresh abrasive grains as the wheel wears.
The presentation provides an insight to the topic of grinding machines and abrasives. It introduces the topic in an easy and lucid way so that the viewers can easily grasp the concepts.
The document discusses the selection and specification of grinding wheels. It covers the types of abrasives like aluminum oxide, silicon carbide, diamond, and cBN and their characteristics and applications. It also discusses factors like grit size, grade or hardness of the wheel, structure or concentration, and type of bond that need to be considered when selecting a grinding wheel based on the material and grinding conditions. The key parameters that determine the wheel selection are the properties of the workpiece material, the type of grinding operation, and the desired material removal rate and surface finish.
The document discusses the basics of grinding, including:
1) Grinding is used to shape and finish metal components to a higher precision than other processes like turning or milling.
2) Grinding wheels are composed of abrasive grains held in a binder that act as cutting tools to remove small chips of material.
3) The main types of grinding are cylindrical, internal, centerless, and surface grinding which produce different surface features.
Grinding is a material removal process that uses an abrasive wheel to remove material from a workpiece. The abrasive wheel consists of bonded abrasive grains that cut through the workpiece material. Grinding provides high accuracy and surface finish. It is used for processes like surface finishing, deburring, and tool sharpening. The grinding wheel specifications include the abrasive material, grit size, bond hardness, structure, and bond type. Proper selection of the grinding wheel depends on factors like the work material properties and grinding conditions. Truing and dressing maintain the geometry and cutting ability of the grinding wheel.
1) Grinding is an abrasive machining process that uses abrasive particles held together by a bonding material to shape and finish workpieces.
2) Key factors in grinding include the abrasive material, grit size, bond type and strength, and wheel structure. Coarser grits and more open structures are used for stock removal while finer grits and denser structures provide better surface finishes.
3) Vitrified bonds are strong but brittle while resin and metal bonds offer more flexibility and toughness. Bond selection depends on factors like wheel speed and fluid compatibility.
This document discusses off-hand grinders, including safety precautions when using them and their main parts. It describes the types of off-hand grinders as pedestal, bench, and portable. The main parts are identified as the body, grinding wheels, work rests, and guards. Factors for selecting appropriate grinding wheels are grit size, grade, bond type, and structure.
This document discusses different types and properties of grinding wheels. It describes 10 types of grinding wheels based on their shape and intended use. It also covers the Indian Standard coding system used for grinding wheels which includes 6 symbols to indicate characteristics like abrasive type, grain size, grade, structure and bond. Different abrasive materials, bonds, grain sizes, grades and structures are defined. Guidelines for selecting the appropriate grinding wheel for different metals and operations are provided. Glazing and loading effects on wheels are described along with their causes and remedies. Steps for properly mounting grinding wheels are outlined.
The document discusses different types of grinding machines and their processes. It describes grinding as an abrasive machining process that uses a revolving wheel to cut hard materials. There are different types of grinding machines based on the geometry of the workpiece, such as surface grinding for flat surfaces, cylindrical grinding for external cylindrical surfaces, and centerless grinding which does not use centers or fixtures to hold the workpiece. The document provides details on grinding wheels, abrasives, and factors to consider for selecting the appropriate grinding wheel for different materials and processes.
The document discusses abrasive processes for material removal. Grinding is the most important abrasive process where abrasive particles in a rotating wheel remove material from a workpiece. Other abrasive processes include honing, lapping, and superfinishing which use bonded abrasive sticks or abrasive particles in a fluid to create very fine surface finishes on complex geometries. Grinding can be done on surfaces or cylinders and is often used as a finishing process to achieve close tolerances and surface finishes not possible with other machining operations.
Specifications of lapping, honing and broaching machineKaran Prajapati
This slide is prepared with the collective effort of Karan Prajapati, Athar Kothawal, Yudhishthir Ramnani and Samiraj Anupam who are doing B.Tech in Mechanical Engineering at School of Technology, Pandit Deendayal Petroleum University. The presentation describes the main terms of specifications in lapping, honing and broaching machines and also explaining the respective manufacturing processes. These machines are used for super-finishing processes.
The document discusses different types of creels used in textile engineering, including automatic creels, swivel frame creels, and retractable truck creels. The automatic creel threads multiple yarn ends simultaneously through tension devices and collectors before locating them on a threading truck. Swivel frame creels reduce the space needed compared to truck creels and allow yarn to be wound from one side while a new set of bobbins is loaded on the other side. Retractable truck creels use double-sided trucks that can be individually entered and removed, with wheel arrangements that allow 360-degree rotation to shorten lot changing times.
Grinding is a material removal process that uses an abrasive grinding wheel rotating at high speeds to remove small chips of material. The grinding wheel consists of abrasive particles held together by a bond. Material is removed as the workpiece is fed against the rotating grinding wheel. Grinding can produce very smooth surfaces and is used for tasks like finishing, deburring, sharpening tools, and removing precise amounts of stock.
This document discusses different types of grinding machines and grinding processes. It begins with an introduction to grinding and then covers:
1. The principle of grinding involves abrasive particles on a rotating wheel removing material from the workpiece.
2. Types of grinding include rough and precision grinding. Classification of grinding machines includes bench, surface, cylindrical, centerless, internal, and special purpose grinding machines.
3. The various elements of a grinding wheel such as abrasives, bonds, and structure are described. Wheel shapes, coding systems, and methods for dressing grinding wheels are also outlined.
The TranSlicer 2000 is a precision slicer manufactured by Urschel Laboratories that can slice a variety of foods like potatoes, carrots, and peppers. It features interchangeable slicing, julienne, and MicroSlice cutting wheels to cut foods into slices as thin as 0.020 inches or julienne cuts from 1/2 by 1/2 inches up to 2 by 2 inches. Product is fed into the machine between two belts and cut with knives attached to a spinning cutting wheel in thicknesses ranging from 1/32 to 3 inches. The TranSlicer 2000 can slice firm foods up to 4 inches in diameter and softer foods up to 6 inches, operating continuously for high production volumes.
The document provides an overview of abrasive machining and grinding processes. It discusses abrasive materials, grinding wheel components and identification, operational parameters, grinding machine types, and specific grinding operations like surface grinding, cylindrical grinding, and centerless grinding. Key points covered include the use of bonded and free abrasives, grit size and geometry, wheel grades and structures, grinding parameters, and the advantages and disadvantages of centerless grinding.
This document discusses grinding and grinding machines. It begins by defining grinding as a process of removing material using an abrasive wheel. It then describes the components of a grinding wheel, including the abrasive, bond, grit size, and grade. It discusses different types of abrasives, bonds, and grinding machines for rough and precision grinding. It covers topics like dressing, truing, wheel selection, and defects in grinding like glazing and loading. Overall, the document provides an overview of grinding wheels, bonds, grit sizes, defects and remedies, and common grinding machine types.
A grinding wheel is composed of an abrasive compound used for grinding and machining operations. It has characteristics such as abrasive grains, grain size, grade, grain spacing, and bond type. Grinding wheels come in various shapes and types for different applications. Proper use and safety precautions are important to prevent injury from wheel breakage.
Grinding is an abrasive machining process that uses a rotating abrasive wheel to remove material from a workpiece through its cutting action. It can achieve very high accuracies and fine surface finishes. There are two main types - precision grinding for accurate dimensions and surface grinding, and non-precision grinding for roughing operations. The grinding wheel consists of abrasive grains bonded together using a bonding material and is precisely balanced for high-speed rotation. Process parameters like abrasive type, grain size, bonding material and wheel grade are selected based on the material and precision requirements.
This document discusses Namsung Industries' busbar fabrication systems. It introduces the NSB-606A, NSB-607A, NSB-601A, NSB-505, and NSB-707 systems. The NSB-606A and NSB-607A are large, multi-functional systems that can cut, bend, and punch busbars. The NSB-601A is a compact system that can also process panels. The NSB-505 is a portable system. The NSB-707 is a panel punching system. All the systems aim to improve production efficiency for busbar and panel fabrication.
The document discusses the basics of lapping and polishing processes. It describes:
1) Lapping removes material precisely to produce flat, smooth surfaces, while polishing produces scratch-free surfaces. Common techniques are grinding, lapping, polishing, and CMP.
2) Equipment used includes lapping machines, fixtures to hold specimens, conditioning equipment to maintain flat plates, and plates in materials like cast iron and copper.
3) Proper plate conditioning is important for maintaining flatness, and involves using an abrasive-coated ring positioned appropriately on the plate based on its initial shape.
Safe Working Practices- Abrasive WheelEfrenEchague
The document provides information on safe working practices for using abrasive wheels. It discusses the characteristics of abrasive wheels including the material, grain size, grade, grain spacing, and bond type. It outlines several hazards associated with abrasive wheels such as breathing dust, electric shock, and flying fragments. The safety procedure for mounting an abrasive wheel is described which includes checking the wheel for damage, ensuring the guard is in place, and wearing proper eye protection. Warnings are provided such as not using equipment with faulty guards and making sure to wear eye protection when grinding.
Broaching is a machining process that uses a broach tool to remove material. There are different types of broaches and broaching methods depending on the operation. Broaching provides high production rates and accuracy for machining holes, slots and surfaces. It is well-suited for mass production but requires expensive broach tools and fixtures.
The document provides an overview of stock components for screw conveyors manufactured by Martin, including troughs, housings, ends, seals, flights, screws, hangers, bearings, reducers, and custom conveyors. It also includes engineering guidelines, charts, tables, and procedures for designing screw conveyors, selecting components, calculating capacity and horsepower, and addressing factors like material characteristics, lump size, thrust, expansion, deflection, and various conveyor types.
This document provides instructions for removing weld seams and conditioning surfaces on stainless steel pieces to a satin finish. It describes removing weld seams and imperfections from box columns that are 6 meters long by 1 meter wide and finishing approximately 60 pieces with a total area of 830-900 square meters. Specific abrasives, grinders, and techniques are recommended for removing weld seams on flat surfaces as well as in tight 45 degree angles, and for conditioning the surfaces and achieving a satin finish.
1) Grinding is an abrasive machining process that uses abrasive particles held together by a bonding material to shape and finish workpieces.
2) Key factors in grinding include the abrasive material, grit size, bond type and strength, and wheel structure. Coarser grits and more open structures are used for stock removal while finer grits and denser structures provide better surface finishes.
3) Vitrified bonds are strong but brittle while resin and metal bonds offer more flexibility and toughness. Bond selection depends on factors like wheel speed and fluid compatibility.
This document discusses off-hand grinders, including safety precautions when using them and their main parts. It describes the types of off-hand grinders as pedestal, bench, and portable. The main parts are identified as the body, grinding wheels, work rests, and guards. Factors for selecting appropriate grinding wheels are grit size, grade, bond type, and structure.
This document discusses different types and properties of grinding wheels. It describes 10 types of grinding wheels based on their shape and intended use. It also covers the Indian Standard coding system used for grinding wheels which includes 6 symbols to indicate characteristics like abrasive type, grain size, grade, structure and bond. Different abrasive materials, bonds, grain sizes, grades and structures are defined. Guidelines for selecting the appropriate grinding wheel for different metals and operations are provided. Glazing and loading effects on wheels are described along with their causes and remedies. Steps for properly mounting grinding wheels are outlined.
The document discusses different types of grinding machines and their processes. It describes grinding as an abrasive machining process that uses a revolving wheel to cut hard materials. There are different types of grinding machines based on the geometry of the workpiece, such as surface grinding for flat surfaces, cylindrical grinding for external cylindrical surfaces, and centerless grinding which does not use centers or fixtures to hold the workpiece. The document provides details on grinding wheels, abrasives, and factors to consider for selecting the appropriate grinding wheel for different materials and processes.
The document discusses abrasive processes for material removal. Grinding is the most important abrasive process where abrasive particles in a rotating wheel remove material from a workpiece. Other abrasive processes include honing, lapping, and superfinishing which use bonded abrasive sticks or abrasive particles in a fluid to create very fine surface finishes on complex geometries. Grinding can be done on surfaces or cylinders and is often used as a finishing process to achieve close tolerances and surface finishes not possible with other machining operations.
Specifications of lapping, honing and broaching machineKaran Prajapati
This slide is prepared with the collective effort of Karan Prajapati, Athar Kothawal, Yudhishthir Ramnani and Samiraj Anupam who are doing B.Tech in Mechanical Engineering at School of Technology, Pandit Deendayal Petroleum University. The presentation describes the main terms of specifications in lapping, honing and broaching machines and also explaining the respective manufacturing processes. These machines are used for super-finishing processes.
The document discusses different types of creels used in textile engineering, including automatic creels, swivel frame creels, and retractable truck creels. The automatic creel threads multiple yarn ends simultaneously through tension devices and collectors before locating them on a threading truck. Swivel frame creels reduce the space needed compared to truck creels and allow yarn to be wound from one side while a new set of bobbins is loaded on the other side. Retractable truck creels use double-sided trucks that can be individually entered and removed, with wheel arrangements that allow 360-degree rotation to shorten lot changing times.
Grinding is a material removal process that uses an abrasive grinding wheel rotating at high speeds to remove small chips of material. The grinding wheel consists of abrasive particles held together by a bond. Material is removed as the workpiece is fed against the rotating grinding wheel. Grinding can produce very smooth surfaces and is used for tasks like finishing, deburring, sharpening tools, and removing precise amounts of stock.
This document discusses different types of grinding machines and grinding processes. It begins with an introduction to grinding and then covers:
1. The principle of grinding involves abrasive particles on a rotating wheel removing material from the workpiece.
2. Types of grinding include rough and precision grinding. Classification of grinding machines includes bench, surface, cylindrical, centerless, internal, and special purpose grinding machines.
3. The various elements of a grinding wheel such as abrasives, bonds, and structure are described. Wheel shapes, coding systems, and methods for dressing grinding wheels are also outlined.
The TranSlicer 2000 is a precision slicer manufactured by Urschel Laboratories that can slice a variety of foods like potatoes, carrots, and peppers. It features interchangeable slicing, julienne, and MicroSlice cutting wheels to cut foods into slices as thin as 0.020 inches or julienne cuts from 1/2 by 1/2 inches up to 2 by 2 inches. Product is fed into the machine between two belts and cut with knives attached to a spinning cutting wheel in thicknesses ranging from 1/32 to 3 inches. The TranSlicer 2000 can slice firm foods up to 4 inches in diameter and softer foods up to 6 inches, operating continuously for high production volumes.
The document provides an overview of abrasive machining and grinding processes. It discusses abrasive materials, grinding wheel components and identification, operational parameters, grinding machine types, and specific grinding operations like surface grinding, cylindrical grinding, and centerless grinding. Key points covered include the use of bonded and free abrasives, grit size and geometry, wheel grades and structures, grinding parameters, and the advantages and disadvantages of centerless grinding.
This document discusses grinding and grinding machines. It begins by defining grinding as a process of removing material using an abrasive wheel. It then describes the components of a grinding wheel, including the abrasive, bond, grit size, and grade. It discusses different types of abrasives, bonds, and grinding machines for rough and precision grinding. It covers topics like dressing, truing, wheel selection, and defects in grinding like glazing and loading. Overall, the document provides an overview of grinding wheels, bonds, grit sizes, defects and remedies, and common grinding machine types.
A grinding wheel is composed of an abrasive compound used for grinding and machining operations. It has characteristics such as abrasive grains, grain size, grade, grain spacing, and bond type. Grinding wheels come in various shapes and types for different applications. Proper use and safety precautions are important to prevent injury from wheel breakage.
Grinding is an abrasive machining process that uses a rotating abrasive wheel to remove material from a workpiece through its cutting action. It can achieve very high accuracies and fine surface finishes. There are two main types - precision grinding for accurate dimensions and surface grinding, and non-precision grinding for roughing operations. The grinding wheel consists of abrasive grains bonded together using a bonding material and is precisely balanced for high-speed rotation. Process parameters like abrasive type, grain size, bonding material and wheel grade are selected based on the material and precision requirements.
This document discusses Namsung Industries' busbar fabrication systems. It introduces the NSB-606A, NSB-607A, NSB-601A, NSB-505, and NSB-707 systems. The NSB-606A and NSB-607A are large, multi-functional systems that can cut, bend, and punch busbars. The NSB-601A is a compact system that can also process panels. The NSB-505 is a portable system. The NSB-707 is a panel punching system. All the systems aim to improve production efficiency for busbar and panel fabrication.
The document discusses the basics of lapping and polishing processes. It describes:
1) Lapping removes material precisely to produce flat, smooth surfaces, while polishing produces scratch-free surfaces. Common techniques are grinding, lapping, polishing, and CMP.
2) Equipment used includes lapping machines, fixtures to hold specimens, conditioning equipment to maintain flat plates, and plates in materials like cast iron and copper.
3) Proper plate conditioning is important for maintaining flatness, and involves using an abrasive-coated ring positioned appropriately on the plate based on its initial shape.
Safe Working Practices- Abrasive WheelEfrenEchague
The document provides information on safe working practices for using abrasive wheels. It discusses the characteristics of abrasive wheels including the material, grain size, grade, grain spacing, and bond type. It outlines several hazards associated with abrasive wheels such as breathing dust, electric shock, and flying fragments. The safety procedure for mounting an abrasive wheel is described which includes checking the wheel for damage, ensuring the guard is in place, and wearing proper eye protection. Warnings are provided such as not using equipment with faulty guards and making sure to wear eye protection when grinding.
Broaching is a machining process that uses a broach tool to remove material. There are different types of broaches and broaching methods depending on the operation. Broaching provides high production rates and accuracy for machining holes, slots and surfaces. It is well-suited for mass production but requires expensive broach tools and fixtures.
The document provides an overview of stock components for screw conveyors manufactured by Martin, including troughs, housings, ends, seals, flights, screws, hangers, bearings, reducers, and custom conveyors. It also includes engineering guidelines, charts, tables, and procedures for designing screw conveyors, selecting components, calculating capacity and horsepower, and addressing factors like material characteristics, lump size, thrust, expansion, deflection, and various conveyor types.
This document provides instructions for removing weld seams and conditioning surfaces on stainless steel pieces to a satin finish. It describes removing weld seams and imperfections from box columns that are 6 meters long by 1 meter wide and finishing approximately 60 pieces with a total area of 830-900 square meters. Specific abrasives, grinders, and techniques are recommended for removing weld seams on flat surfaces as well as in tight 45 degree angles, and for conditioning the surfaces and achieving a satin finish.
Lapping is a precision finishing process that uses abrasive particles to refine a surface and achieve high dimensional and geometric accuracy. It can be done manually or with machines. Manual lapping involves rubbing abrasive powder onto a workpiece on a soft lap material. Machine lapping uses abrasive bonded wheels or powder. Lapping is used for flat, cylindrical, and other regular surfaces to produce close tolerances and very smooth finishes measured in microns. Common applications include gauges, piston rings, bearings, and crankshafts.
The document provides information on various metallographic equipment manufactured by Omnitech, including sectioning machines, grinding and polishing machines, hot compression machines, and in-situ metallography kits. It describes automatic and manual sectioning machines for cutting samples of various sizes and hardness levels. Grinding and polishing machines include single and double disc models for metallographic preparation. Additional products listed are tube and bar cutting machines, Jominy end quench setups, furnaces, and hardness testers.
The document discusses different types of size reduction equipment used in coarse, intermediate, and fine size reduction. For coarse size reduction of hard materials, jaw crushers and gyratory crushers are used. For coarse size reduction of soft materials, hammer mills and tooth roll crushers are used. Intermediate size reduction equipment includes cone crushers and crushing rolls. Fine size reduction or grinding equipment includes ball mills, Raymond mills, and bowl mills. The key mechanisms of size reduction in these equipment are impact, pressure, and shear forces.
This document provides a demo report for stainless steel finishing tools and accessories from Inox for a proposed stainless steel workshop. It details 5 steps for removing and smoothing a fillet weld using various grinding, polishing, and cleaning tools. It also proposes other machines for the workshop and provides information on factors that influence stainless steel finishing like grade, environment, abrasives used, and machine speed. Proper procedure and use of carbon-free abrasives are emphasized for obtaining the desired mirror polish finish without discoloration.
This presentation is about how gears are manufactured.
A brief description about methods of gear manufacturing.
Scaling the methods from primitive ways of gear manufacturing to specialised meyhods like gear hobbing,rolling,by rack type shaper cutter and finally on milling machine.
Mitsubishi Materials offers a wide range of cutting edge technological products
that meet the ever demanding requirements from the Automotive Industry.
Mitsubishi Materials also offers materials
that are frequently used in the Automotive Industry therefore making
it possible to also supply the cutting tools
that are required to machine these particular materials.
The document discusses various types of size-reduction equipment, including crushers, grinders, ultrafine grinders, and cutting machines. It describes the main types of crushers as jaw crushers, gyratory crushers, smooth-roll crushers, and toothed-roll crushers. Jaw crushers use compression to break large rocks into smaller pieces, while roll crushers employ compression to crush materials between two rolls. The document also provides details on the working principles and applications of different types of crushers.
This document describes a 3 roll fixed axis plate bending machine and its features. It can bend plates from 12-30mm thick in widths of 2000-4100mm. It has an adjustable and user-friendly control panel to operate bending functions. Additional features include an easy drop end plate removal system, adjustable cone guide for tapers, and the ability to bend structural sections up to 200mm. A comparison chart outlines advantages over conventional machines such as faster operation and better roundness correction. Optional features and a 4-roll plate bending machine are also summarized.
This document discusses the process of continuous casting of steel. It begins with an introduction and overview of the process. It then describes the three main types of continuous casting machines - vertical mould, vertical mould with bending, and curved mould. It provides details on the equipment, materials, process steps, defects, and modern developments of continuous casting. Some advantages are improved yield, quality, productivity and cost efficiency compared to ingot casting. Disadvantages include the need for a large facility and efficient cooling.
The document describes three new nibblers - the TruTool N 200, PN 200, and PN 201 - from TRUMPF that can be used on the same machine base. The nibblers are lightweight, easy to maneuver, and can cut sheet metal up to 2mm thick at speeds up to 2.2 meters per minute. Tools and cutting directions can be changed quickly without additional tools.
Vibrator surface polishing and mas finishing machines Vivek Grover
The Vibrator Finishing Machines are mass finishing machines used for deburring, polishing, descaling and surface treatment of different metal and plastic components. Vibratory tumble finishing systems produce a cutting action by shaking the processing vessel (finishing tub) at a high speed thus causing the tumbling media and parts to scrub against each other and this scrubbing action removes burrs on the surfaces as rotating in eccentric motion weights mounted on the tub produces this shaking action of the tub which produces a cutting action that is very thorough and removes material from pockets and recesses on the surface therefore it is used for delicate or intricate parts too. This motion with high speeds and a short stroke can also run large bulky parts without damage such as Large wing spans and casted goods. The action is that of a small orbit at a high speed and thus is very powerful and causes little stress on the parts being polished.
The finishing and deburring process is increased in vibratory barrels due to the relative motion between finishing media and the pieces as vibrations are generated and with the help of three dimensional vibrations and thus the process becomes more effective which is controlled by amplitude and frequency of the vibrations generated by mounted weights, which imparts higher force than the gravitational force. These machines can be harmonized to promote the best possible action and movement in deburring and polishing the surfaces, which will itself impart an achievable quality on polished components. Our machines with thick polyurethane inner lining with high quality specification has a longer life
This document presents information on straight knife cutting machines, including their parts, specifications, brands offered, and services provided. It discusses that straight knife cutters are versatile machines used to cut fabric components in bulk. They have parts like the knife, presser foot, base plate and rollers, motor, handles. It provides specifications for the knife, presser foot, and other parts. The document also lists advantages of straight knife cutters and models offered by Eastman and Consew brands, along with the services provided.
This document provides information on various sheet metal forming processes. It discusses the characteristics of sheet metal and tests used to determine formability. The main sheet metal forming processes covered are tube bending and forming as well as bending of sheet and plate. Tube bending can be done via press bending, rotary drawing, heat induction, roll bending, and sand packing. Sheet and plate bending includes techniques like roll bending, air bending, bottoming, coining, folding, wiping, and rotary bending. Common applications of sheet metal forming in industries like automotive, aircraft, appliances, and furniture are also mentioned.
This document describes the components and working of a surface grinding machine. It discusses the principle, types including horizontal and vertical spindle machines, working, and equipment. The key components are the grinding wheel, workholding chuck, and reciprocating or rotary table. The wheel rotates to grind the flat surface of a workpiece held securely in the chuck. Factors like material and wheel selection influence the process. Precision grinding provides smooth, flat surfaces for functional purposes.
Manufacturing of Large Electrical MachineVAIBHAV SINGH
The document summarizes the manufacturing process for large electrical machines at BHEL Bhopal. It involves several steps:
1) Foundry work to cast parts like the stator frame through processes like pattern making, molding, melting, and heat treatment.
2) Fabrication including shaft making, rod and rib assembly, welding, testing, and painting.
3) Machining to achieve proper dimensions.
4) Coil insulation and winding after processes like cutting, transposition, pressing, and forming of conductors.
5) Assembly of components and testing before shipping. Large motors ranging from 150kW to 21MW are manufactured through these steps.
The PIPE-MAX is a combination grinder and pipe belt sander. The front hard rubber contact roller drives the abrasive belt to grind flat surfaces and removes weld seams in a straight line, without leaving edges or a wavy finish.
Similar to CS Unitec Beveling Machines for Grinding, Deburring, Chamfering and Faceting (20)
CS Unitec's Catalog of Surface Finishing Tools and AccessoriesCS Unitec
CS Unitec's surface finishing tools and accessories offer professional power tools and abrasive accessories for surface finishing on steel, stainless steel, aluminum and other metals, as well as rigid plastics and wood.
CS Unitec Complete Magnetic Drill CatalogCS Unitec
CS Unitec's portable magnetic drills are idea for drilling structural steel and virtually any metal and are heavy-duty for use in construction and industry.
CS Unitec's core drill is a power tool for boring holes through concrete, reinforced concrete, brick, block, stone and masonry. Specialized core bits - hollow steel cylinders fitted with segmented diamond teeth - grind away the surface to create a hole.
This document provides information about the P1 portable magnetic drill. It can drill holes up to 1-3/8 inches in diameter using annular cutters or twist drills. The drill features a 10 amp motor, weighs 26.5 pounds, and has a 4 inch stroke length. It comes equipped with safety features and accessories like a carrying case, lubrication pump, and safety strap. Optional accessories allow it to function as a standard drill press as well.
CS Unitec Portable Magnetic Drills & AccessoriesCS Unitec
This document provides information on portable magnetic drilling machines made by CS Unitec. It describes the features and specifications of their line of portable magnetic drills, including electric, pneumatic, and hydraulic models. The drills are designed for continuous operation and drilling of structural steel and metal. They offer variable speed controls, quick-change tool holders, and safety features like overheating protection and electronic shutoff sensors.
CS Unitec Portable Magnetic Drilling MachineCS Unitec
The document provides information about portable magnetic drilling machines made by CS Unitec. It summarizes the key features of their line of magnetic drills including the maximum annular cutter, twist drill, and tapping diameters for each model. It also lists other specifications like stroke, weight, speed ranges, cooling features, and magnet sizes. Accessories and consumables like cutters, lubricants, and vacuum plates are also described. The document promotes CS Unitec as the industry leader in power-to-weight ratios and magnetic drilling strength and touts the reliability and customization of their machines.
The Department of Veteran Affairs (VA) invited Taylor Paschal, Knowledge & Information Management Consultant at Enterprise Knowledge, to speak at a Knowledge Management Lunch and Learn hosted on June 12, 2024. All Office of Administration staff were invited to attend and received professional development credit for participating in the voluntary event.
The objectives of the Lunch and Learn presentation were to:
- Review what KM ‘is’ and ‘isn’t’
- Understand the value of KM and the benefits of engaging
- Define and reflect on your “what’s in it for me?”
- Share actionable ways you can participate in Knowledge - - Capture & Transfer
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Conversational agents, or chatbots, are increasingly used to access all sorts of services using natural language. While open-domain chatbots - like ChatGPT - can converse on any topic, task-oriented chatbots - the focus of this paper - are designed for specific tasks, like booking a flight, obtaining customer support, or setting an appointment. Like any other software, task-oriented chatbots need to be properly tested, usually by defining and executing test scenarios (i.e., sequences of user-chatbot interactions). However, there is currently a lack of methods to quantify the completeness and strength of such test scenarios, which can lead to low-quality tests, and hence to buggy chatbots.
To fill this gap, we propose adapting mutation testing (MuT) for task-oriented chatbots. To this end, we introduce a set of mutation operators that emulate faults in chatbot designs, an architecture that enables MuT on chatbots built using heterogeneous technologies, and a practical realisation as an Eclipse plugin. Moreover, we evaluate the applicability, effectiveness and efficiency of our approach on open-source chatbots, with promising results.
Northern Engraving | Modern Metal Trim, Nameplates and Appliance PanelsNorthern Engraving
What began over 115 years ago as a supplier of precision gauges to the automotive industry has evolved into being an industry leader in the manufacture of product branding, automotive cockpit trim and decorative appliance trim. Value-added services include in-house Design, Engineering, Program Management, Test Lab and Tool Shops.
[OReilly Superstream] Occupy the Space: A grassroots guide to engineering (an...Jason Yip
The typical problem in product engineering is not bad strategy, so much as “no strategy”. This leads to confusion, lack of motivation, and incoherent action. The next time you look for a strategy and find an empty space, instead of waiting for it to be filled, I will show you how to fill it in yourself. If you’re wrong, it forces a correction. If you’re right, it helps create focus. I’ll share how I’ve approached this in the past, both what works and lessons for what didn’t work so well.
Essentials of Automations: Exploring Attributes & Automation ParametersSafe Software
Building automations in FME Flow can save time, money, and help businesses scale by eliminating data silos and providing data to stakeholders in real-time. One essential component to orchestrating complex automations is the use of attributes & automation parameters (both formerly known as “keys”). In fact, it’s unlikely you’ll ever build an Automation without using these components, but what exactly are they?
Attributes & automation parameters enable the automation author to pass data values from one automation component to the next. During this webinar, our FME Flow Specialists will cover leveraging the three types of these output attributes & parameters in FME Flow: Event, Custom, and Automation. As a bonus, they’ll also be making use of the Split-Merge Block functionality.
You’ll leave this webinar with a better understanding of how to maximize the potential of automations by making use of attributes & automation parameters, with the ultimate goal of setting your enterprise integration workflows up on autopilot.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
How information systems are built or acquired puts information, which is what they should be about, in a secondary place. Our language adapted accordingly, and we no longer talk about information systems but applications. Applications evolved in a way to break data into diverse fragments, tightly coupled with applications and expensive to integrate. The result is technical debt, which is re-paid by taking even bigger "loans", resulting in an ever-increasing technical debt. Software engineering and procurement practices work in sync with market forces to maintain this trend. This talk demonstrates how natural this situation is. The question is: can something be done to reverse the trend?
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
Connector Corner: Seamlessly power UiPath Apps, GenAI with prebuilt connectorsDianaGray10
Join us to learn how UiPath Apps can directly and easily interact with prebuilt connectors via Integration Service--including Salesforce, ServiceNow, Open GenAI, and more.
The best part is you can achieve this without building a custom workflow! Say goodbye to the hassle of using separate automations to call APIs. By seamlessly integrating within App Studio, you can now easily streamline your workflow, while gaining direct access to our Connector Catalog of popular applications.
We’ll discuss and demo the benefits of UiPath Apps and connectors including:
Creating a compelling user experience for any software, without the limitations of APIs.
Accelerating the app creation process, saving time and effort
Enjoying high-performance CRUD (create, read, update, delete) operations, for
seamless data management.
Speakers:
Russell Alfeche, Technology Leader, RPA at qBotic and UiPath MVP
Charlie Greenberg, host
AppSec PNW: Android and iOS Application Security with MobSFAjin Abraham
Mobile Security Framework - MobSF is a free and open source automated mobile application security testing environment designed to help security engineers, researchers, developers, and penetration testers to identify security vulnerabilities, malicious behaviours and privacy concerns in mobile applications using static and dynamic analysis. It supports all the popular mobile application binaries and source code formats built for Android and iOS devices. In addition to automated security assessment, it also offers an interactive testing environment to build and execute scenario based test/fuzz cases against the application.
This talk covers:
Using MobSF for static analysis of mobile applications.
Interactive dynamic security assessment of Android and iOS applications.
Solving Mobile app CTF challenges.
Reverse engineering and runtime analysis of Mobile malware.
How to shift left and integrate MobSF/mobsfscan SAST and DAST in your build pipeline.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
Session 1 - Intro to Robotic Process Automation.pdfUiPathCommunity
👉 Check out our full 'Africa Series - Automation Student Developers (EN)' page to register for the full program:
https://bit.ly/Automation_Student_Kickstart
In this session, we shall introduce you to the world of automation, the UiPath Platform, and guide you on how to install and setup UiPath Studio on your Windows PC.
📕 Detailed agenda:
What is RPA? Benefits of RPA?
RPA Applications
The UiPath End-to-End Automation Platform
UiPath Studio CE Installation and Setup
💻 Extra training through UiPath Academy:
Introduction to Automation
UiPath Business Automation Platform
Explore automation development with UiPath Studio
👉 Register here for our upcoming Session 2 on June 20: Introduction to UiPath Studio Fundamentals: https://community.uipath.com/events/details/uipath-lagos-presents-session-2-introduction-to-uipath-studio-fundamentals/
Session 1 - Intro to Robotic Process Automation.pdf
CS Unitec Beveling Machines for Grinding, Deburring, Chamfering and Faceting
1. DS 301 Planetary Sander/Polisher
Sands, grinds, hones and polishes
The DS 301 planetary polisher produces a flat, swirl-free
SANDING / POLISHING / HONING MACHINE
finish on counter tops, floors, walls and steps. The unit will
grind, hone, polish and clean concrete, terrazzo, marble,
granite and corian surfaces using coated abrasives,
diamond polishing systems and lightweight diamond
wheels. The system operates wet by default, or dry with
an optional dust cowl.
DS 301, wet operation
This is a true planetary-driven
tool. The 12” platform turns at a
lower rate than the higher
rotational speed of the 5” DS 301 Specifications
platens. This combination of
RPM provides the optimal speed
for polishing, producing a perfect Power 10 Amp
110 V / 60 Hz
finish five times faster than a
single-head polisher. A center 12” platform speed 150 - 450 RPM
coolant feed, precision bearings 5” platen speed 750 - 2200 RPM
and sturdy construction make
3 platens 5” (with 5/8”-11 thread)
this the ultimate tool for perfect
finishes and superior polish. DS 301 with optional cowl for dry operation Weight 47 lbs.
Deburring, Beveling and Faceting Machines
(pages 36-39)
CS Unitec offers a line of deburring equipment for grinding, deburring, chamfering and
faceting. Fast and efficient, these machines are available in hand-held and table-top
models. See pages 36-39 for features and specifications on our full line of Deburring
and Beveling Machines.
Above: EF 115 Deburring Above: LKF450
and Faceting Machine. Ideal Multipurpose Beveling
for awkward, heavy parts, Machine. Bevel 30˚ or 45˚
frame constructions or large and R2.5 radius
sheets of metal.
Above Left: LKF200 Portable
Beveling Machine. Fast, easy
preparation of weld seams.
Bevels 15˚ to 60˚ angles on
plate or pipe.
Left: PEF 500 Faceting
and Deburring
Machine.
Adjustable 30˚to 60˚
Above: BE 5 Sheet Metal Deburring facet angle and 0 to
Machine. Double-sided deburring of 3/8” facet width.
metal sheets from 0 to 0.2” thick.
• 1-800-700-5919 • Visit our Web site at www.csunitec.com 35
2. ROLEI® BE 5 Sheet
SHEET METAL DEBURRING MACHINE
Metal Deburring
Machine – 2 Speeds
Double-sided deburring of sheet metal up to 0.2”
thick can be achieved in a single operation with no
additional treatment. The machine’s flap wheels can
be easily adjusted as they wear. One set of wheels
lasts for approximately 6500 feet of stainless steel
sheet. Supplied standard with two 80 grit flap wheels,
the ROLEI® BE 5 can be used with other optional
grits to suit the facet width and materials of your
particular application.
Features two-speed operation:
Speed 1: fine deburring, 600 RPM
Speed 2: standard deburring, 1200 RPM
Optional accessories:
• Spare flap wheels (40, 60, 80, and 120 grit)
• Machine stand, made from strong steel
• Port for industrial dust extractor
• 440 V / 3-phase – Order No. 30310
220 V / 3-phase – Order No. 30310A
ROLEI BE 5 Specifications
3-phase motor 400 - 440 V 3-phase / 2 speeds
Can also be used on its side with (optional voltage) 220 - 240 V 3-phase / 2 speeds
roller tables for large thin sheets.
Dimensions 19.7” x 12.8” x 7.9”
Weight 64 lbs.
Options Machine stand, dust extractor
connection port, teflon tape
ROLEI BE 5 Flap Wheels
Deburring on Part No. Grit Qty.
both sides of
the sheet edges 37040 30 2 discs per pack
Sheet with burr 37060 60 2 discs per pack
after cutting 37080 80 2 discs per pack
37120 120 2 discs per pack
Spare flap wheels for sheet Machine stand - P/N: 30320 Extension rail - standard, from Teflon tape – self-adhesive
metal deburring machine BE 5 Strong steel machine stand with 20” to 28” (included) P/N: 30340 (20” length)
Grit 40, 60, 80, 120, 150 black powder coating For extension rail to protect it
from scratching the workpiece
Width 3/4”; length 20” + 28”
36 • 1-800-700-5919 • Visit our Web site at www.csunitec.com
3. ROLEI® EF 115
H A N D - H E L D D E B U R R I N G A N D FA C E T I N G M A C H I N E
Hand-held Deburring
and Faceting Machine
This handy deburring machine is designed for awkward, heavy
parts, such as machine tables, frame constructions or large
sheets of metal. Easy to handle, with good edge control. The
EF 115 is also ideal for chamfering welds. Fixed beveling angle
of 45˚, infinitely adjustable facet width from 0” to 3/8”.
The handy ROLEI® EF 115 can
deburr and facet large, heavy
parts with ease. The precise
edge control guarantees clean
bevels at an angle of 45˚.
Rolei EF 115
110 V / 60 Hz
Variable speed: 2,000 to 7,600 RPM
Part No. 30116
QUICK-LOCK cable for
ROLEI® EF 115 Specifications fast, easy replacement, e.g.
if the cable is damaged
Available in 12 ft. and 33 ft. lengths
(accessories)
Universal motor Part no. 30116
12.27 Amp (1350 W) 110 V / 60 Hz
(230 V / 50 Hz, 1600 W also
Simple disc changing
available)
Speed Infinitely adjustable
from 2,000 to 7,600 rpm
Weight 9 lbs.
Options Sliding guide rail, plastic
(P/N 30117, 2-piece set)
ROLEI EF 115 Flap Discs
Part No. Grit Qty.
21050A 50 10 discs per pack
21060A 60 10 discs per pack
21080A 80 10 discs per pack
21120A 120 10 discs per pack
• 1-800-700-5919 • Visit our Web site at www.csunitec.com 37
4. ROLEI® EF 165
Beveling and deburring machine with a fixed beveling angle of
45˚ and an infinitely adjustable beveling width from 0” to 3/8” for
D E B U R R I N G A N D FA C E T I N G M A C H I N E S
all metals from stainless steel to aluminum. Precise adjustment
of the facet width using a hand wheel.
Optional accessories:
• Table extension (P/N 30110, 2 pieces, 5” x 13” each)
• Machine stand (P/N 30120)
• Extraction port for industrial dust extractor (P/N 30101)
• Spare flap discs (50, 60, 80, 120 grit)
ROLEI® EF 165 Specifications
Three-phase motor Part no. 30100
220 - 240 V, 400 - 440 V, 3-phase
Support table 5” x 13”
Dimensions 14” x 13” x 12”
Weight 40 lbs.
Options Table extension, machine stand,
extraction port for dust extractor
connection
Rolei EF 165
Speed: 2800 RPM
Supplied as standard with 80 grit disc. Other grits can
also be used to suit the facet width and materials.
ROLEI® PEF 500 Rolei PEF 500
Speed: 2800 RPM
Precision beveling and faceting machine for all metals from
stainless steel to aluminum. Infinitely adjustable beveling
angle from 30˚ to 60˚ and infinitely adjustable facet width
from 0” to 3/8” (precise adjustment using knob)
Optional accessories:
• Table extension (guide rail) from 20” to 28” (P/N 30240)
• Extraction port for dust (P/N 30230)
• Sliding feed plate, plastic (P/N 30240)
• Spare flap discs (grit 50, 60, 80, 120)
ROLEI® PEF 500 Specifications
Three-phase motor Part no. 30200
220 - 240 V, 400 - 440 V, 3-phase
Dimensions 20” x 14” x 14”
Weight 88 lbs.
Options Table extension, machine stand,
extraction port for dust extractor
connection Parts are beveled
with perfect cross-
grinding – absolutely
Supplied as standard with 80 grit disc. Other grits can no opposite burr.
also be used to suit the facet width and materials.
38 • 1-800-700-5919 • Visit our Web site at www.csunitec.com
5. Multipurpose Beveling Machine
Bevel, deburr and chamfer edges of steel plate fast
The LKF450 is designed to bevel 30˚ or 45˚ weld seams on steel, stainless steel,
POR TABLE BEVELING MACHINES
nonferrous metals, brass and plastics. It can also be used to deburr and chamfer;
straighten edges, internal and external radii; and countersink holes from
7/8” diameter.
• Fine adjustment feature for slight chamfers when deburring for the
preparation of weld seams
• Three milling heads – 30˚, 45˚ and radius R2.5 – are available
LKF450
• Ideal for the following applications: Moldmaking (straighten edges, internal and
external radii and countersink holes from 7/8” dia.); Boiler and process plant
construction (prepare weld seams on heat exchangers); Mechanical
engineering (deburr machine parts, chamfer edges to protect against
paint peeling and create visible edges); Sheet metal (deburr cut edges)
30˚ 45˚
LKF1201 LKF1202 LKF1203 milling head
milling head milling head R2.5 radius (only insert shown)
Portable Beveler Specifications
LKF450-2A* LKF450-2* LKF200 LKF450 (above) standard equipment includes
milling head and two inserts, SW22 key, carrying case
Beveling angle* 30˚ 45˚ 15˚ - 60˚
and user’s manual. Please see our Price List for
Bevel width (max.)** 1/4” 1/4” 5/8” available accessories.
Motor power 10 Amp 10 Amp 14 Amp
LKF200 (below) standard equipment includes two
Voltage All machines: 110 V (220 V / 50 Hz also available) milling heads, each with six sintered carbide reversible
Cutting speed 3000 SFPM 3000 SFPM 1800 SFPM cutting inserts, tools for assembly, LKF pipe roller
guide, steel carrying case and user’s manual. Please
Cutting inserts 2 2 12 see our Price List for available accessories.
Dimensions (L x W x H) 12-1/2” x 5-1/2” x 11-5/8” 16-1/2” x 13” (L x H)
Weight 10.5 lbs. 10.5 lbs. 42 lbs.
* LKF450 milling heads are interchangeable.
** Max. bevel width may require several passes, depending on material hardness
LKF200
Portable Beveling Machine
Bevel angles from 15˚ to 60˚ on plate and pipes
CS Unitec’s LKF200 Beveling Machine provides fast and easy preparation
of weld seams and bevels 15˚ to 60˚ angles on plate or pipe. It is ideal for
use on steel, stainless steel, aluminum and nonferrous metals and offers
high-quality performance that allows for superior weld connections.
• Continuously adjustable angle (15˚ to 60˚) and land width up to 5/8”
• Robust design, single operator control and easy handling; designed for
continuous operation with smooth roller guides
• Includes two milling heads and 12 total indexable inserts for fast metal
removal and extended tool life
• Work on welding angles and weld preparation on pipes/tubes with a
minimum OD of 6-1/4” (160mm) with included pipe roller guide; also
ideal for beveling pipe 6-1/4” OD and larger
• 1-800-700-5919 • Visit our Web site at www.csunitec.com 39