We are engaged in manufacturing and exporting Metal O Rings, Spring Energised Metal O Rings, Metal C Rings, Spring Energised Metal C Rings, Metal Oyster seal, Metal Comma seal.
This document provides guidelines for the construction of steel deck projects. It describes various deck product types including composite floor deck, roof deck, cellular deck, and form deck. It provides details on their uses, profiles, finishes, and installation considerations. The document also covers topics like approved erection drawings, packaging, storage, safety procedures, damage prevention, and placing concrete.
Rolling bearings and seals in electric motors andgenerators đã chuyển đổivinh chu
This document discusses rolling bearings used in electric motors and generators. It covers key design requirements for bearings in electric machines including operating conditions, required uptime, maintenance needs, and manufacturing methods. It also discusses selecting the proper bearing type, lubricant, and lubrication method to optimize service life. Common bearing types for electric machines like ball, roller, and hybrid bearings are described along with examples of how to calculate bearing loads.
This document contains information about spiral ductwork and fittings produced by Spiral Manufacturing Co., including:
- A table listing the weights of spiral galvanized pipe in various sizes and gauges.
- Specifications for fittings like elbows, tees, laterals, manifolds, and other components.
- Information on products like insulated duct, rectangular duct, dual wall duct and fittings, joints, and accessories.
- Notes on applications, materials handling, product selection, and other general information.
The document provides specifications and details for a complete line of high pressure ductwork and pneumatic distribution systems.
This document summarizes research on zirconia as a dental material. It discusses the discovery and uses of zirconia in biomedical applications including dentistry. Zirconia has high strength and fracture toughness making it suitable for dental crowns, bridges, and other restorations. The document reviews different types of zirconia materials and their properties. It also examines how zirconia is processed into dental restorations using slip casting or CAD/CAM methods. Clinical studies show zirconia has good survival rates but veneer cracking can be an issue. The aim is to investigate if zirconia ensures longevity of restorations.
This document provides information on Scotch-Brite surface conditioning wheels, including convolute and unitized wheels. It includes charts listing wheel types and their applications for deburring, polishing, and finishing of various materials like carbon steel, stainless steel, aluminum and others. It also discusses factors to consider when selecting wheels like material hardness, desired results, and speed capabilities. Convolute wheels generally provide finer finishes while unitized wheels are more aggressive and durable.
“Advance construction technology in megavikipatel123
This document is a project report submitted in partial fulfillment of a Bachelor of Engineering degree in Civil Engineering. It examines the use of a bi-axial voided slab system, which utilizes plastic spheres embedded in a concrete lattice structure to replace a portion of the concrete in a slab. The report includes a literature review on voided slab systems, descriptions of the components and design of bi-axial voided slabs, design of test slab specimens with varying plastic sphere sizes and slab thicknesses, details of casting and testing the slab specimens, results of the material testing and structural testing, and comparisons of the test results. The overall goal is to better understand the behavior of bi-axial voided slabs through experimental testing and comparison with
This document provides an introduction to and overview of the book "Supplementary Cementing Materials" by Rafat Siddique and Mohammad Iqbal Khan. The book contains five chapters, each devoted to a particular supplementary cementing material - coal fly ash, silica fume, granulated blast furnace slag, metakaolin, and rice husk ash. This document discusses the book's structure, topics covered in each chapter, and acknowledges those who have contributed to research in this area.
The document discusses testing equipment for concrete, including equipment for testing fresh and hardened concrete. It provides details on a range of testing machines and equipment for measuring properties like compression strength, workability, slump, air content, density, moisture content, chloride penetration, and corrosion of concrete. The document aims to provide testing solutions to satisfy standards like EN and ASTM for use in quality control and evaluation of concrete.
This document provides guidelines for the construction of steel deck projects. It describes various deck product types including composite floor deck, roof deck, cellular deck, and form deck. It provides details on their uses, profiles, finishes, and installation considerations. The document also covers topics like approved erection drawings, packaging, storage, safety procedures, damage prevention, and placing concrete.
Rolling bearings and seals in electric motors andgenerators đã chuyển đổivinh chu
This document discusses rolling bearings used in electric motors and generators. It covers key design requirements for bearings in electric machines including operating conditions, required uptime, maintenance needs, and manufacturing methods. It also discusses selecting the proper bearing type, lubricant, and lubrication method to optimize service life. Common bearing types for electric machines like ball, roller, and hybrid bearings are described along with examples of how to calculate bearing loads.
This document contains information about spiral ductwork and fittings produced by Spiral Manufacturing Co., including:
- A table listing the weights of spiral galvanized pipe in various sizes and gauges.
- Specifications for fittings like elbows, tees, laterals, manifolds, and other components.
- Information on products like insulated duct, rectangular duct, dual wall duct and fittings, joints, and accessories.
- Notes on applications, materials handling, product selection, and other general information.
The document provides specifications and details for a complete line of high pressure ductwork and pneumatic distribution systems.
This document summarizes research on zirconia as a dental material. It discusses the discovery and uses of zirconia in biomedical applications including dentistry. Zirconia has high strength and fracture toughness making it suitable for dental crowns, bridges, and other restorations. The document reviews different types of zirconia materials and their properties. It also examines how zirconia is processed into dental restorations using slip casting or CAD/CAM methods. Clinical studies show zirconia has good survival rates but veneer cracking can be an issue. The aim is to investigate if zirconia ensures longevity of restorations.
This document provides information on Scotch-Brite surface conditioning wheels, including convolute and unitized wheels. It includes charts listing wheel types and their applications for deburring, polishing, and finishing of various materials like carbon steel, stainless steel, aluminum and others. It also discusses factors to consider when selecting wheels like material hardness, desired results, and speed capabilities. Convolute wheels generally provide finer finishes while unitized wheels are more aggressive and durable.
“Advance construction technology in megavikipatel123
This document is a project report submitted in partial fulfillment of a Bachelor of Engineering degree in Civil Engineering. It examines the use of a bi-axial voided slab system, which utilizes plastic spheres embedded in a concrete lattice structure to replace a portion of the concrete in a slab. The report includes a literature review on voided slab systems, descriptions of the components and design of bi-axial voided slabs, design of test slab specimens with varying plastic sphere sizes and slab thicknesses, details of casting and testing the slab specimens, results of the material testing and structural testing, and comparisons of the test results. The overall goal is to better understand the behavior of bi-axial voided slabs through experimental testing and comparison with
This document provides an introduction to and overview of the book "Supplementary Cementing Materials" by Rafat Siddique and Mohammad Iqbal Khan. The book contains five chapters, each devoted to a particular supplementary cementing material - coal fly ash, silica fume, granulated blast furnace slag, metakaolin, and rice husk ash. This document discusses the book's structure, topics covered in each chapter, and acknowledges those who have contributed to research in this area.
The document discusses testing equipment for concrete, including equipment for testing fresh and hardened concrete. It provides details on a range of testing machines and equipment for measuring properties like compression strength, workability, slump, air content, density, moisture content, chloride penetration, and corrosion of concrete. The document aims to provide testing solutions to satisfy standards like EN and ASTM for use in quality control and evaluation of concrete.
Mr Jonathan Barr is a qualified Electrical Engineer and worked for 20 years with Glasstech as their
Electrical Engineer being involved with trouble-shooting tempering systems around the world. Jonathan retired
from Glasstech as General Manager in 2003 and continued to travel extensively as an independent consultant
on glass tempering systems..
Simulation of Critical Crack Length Propagation Using Fracture Mechanicsijceronline
The document discusses simulation of critical crack length propagation using fracture mechanics principles. It provides background on different types of material failures including buckling, ductile fracture, and brittle fracture. It then discusses fatigue failures and calculates critical crack length, strain amplitude, and mean stress for steel, aluminum, and epoxy materials using linear elastic fracture mechanics. The results show aluminum has the highest strength and life cycle while epoxy has the lowest. It concludes that mixing aluminum and epoxy could increase the life cycle of epoxy materials.
This document contains sections about the mechanical properties of materials, including stress-strain diagrams, fracture at low stresses, fatigue, creep, hardness, and testing of materials. It discusses key concepts such as yield strength, ultimate tensile strength, uniform and non-uniform elongation, and reduction of area. Graphs and tables are provided to illustrate stress-strain behavior for different materials. The document also contains additional sections on mechanics of materials, pipeline flexure stresses, and nondestructive testing.
Galvanizing for Corrosion Protection (AGA)Abrianto Akuan
This document provides an overview of corrosion protection for reinforcing steel through galvanizing. It discusses how corrosion occurs via electrochemical processes on steel and how zinc protects steel through barrier protection and cathodic protection. The hot dip galvanizing process coats steel in a protective zinc layer. Galvanized steel reinforcement provides corrosion resistance and maintains the mechanical properties of steel in concrete structures.
Harlam Enterprise imports, trades, and stocks electrical steel, including CRNGO coils, EI laminations, and strip laminations. It offers various types and grades of EI laminations in CRNGO, as well as CRNGO slit coils and sheets in 0.50mm and 0.65mm thicknesses. The company also provides strip laminations and blanks to customer specifications, and sources CRGO production surplus and offcuts. It serves as a trader and manufacturer of various electrical steel products from its works in Bhiwandi and office in Mumbai.
This document provides standards for gray iron pipe flanges and flanged fittings in classes 25, 125, and 250. It includes information on pressure-temperature ratings, sizes, marking, materials, fitting dimensions and tolerances, bolt and gasket dimensions, hydrostatic tests, and certifications. The document aims to establish uniform requirements for gray iron flanges and fittings to promote interchangeability.
This document provides standards for prequalified connections used in special and intermediate steel moment frames for seismic applications. It summarizes American National Standard ANSI/AISC 358-16, which establishes design requirements, material specifications, quality control procedures, and prequalification limits for several types of moment connections commonly used in seismic steel frames. The standard supersedes previous versions and incorporates two additional prequalified moment connection types.
This document provides an overview of fatigue properties of beta processed and beta heat-treated titanium alloys, with an emphasis on beta annealed Ti-6Al-4V Extra Low Interstitial thick plate. It reviews literature on fatigue initiation sites and mechanisms, initiation lives, and short and long fatigue crack growth behavior. Testing and analysis was conducted to generate fatigue data required for damage tolerance assessments and reassessments of aircraft structures made from this alloy.
This document summarizes the failure analysis of a helical gear used in a steel mill reducer gearbox. Visual examination found two broken teeth with pitting on the contact side. Investigation found the gear material was a low alloy steel and fractography showed brittle fracture from excessive contact stress. The failure was caused by replacing the original motor with a more powerful one, increasing stress over 3 times higher than allowable for the gear material and leading to pitting, crack initiation and growth, and final fracture.
MICROSTRUCTURAL & MICRO HARDNESS ANALYSIS OF DEFECTIVE AND DEFECT FREE MULTI ...Joseph Stynes B. Eng.
This document describes a student project analyzing the microstructure and microhardness of multi-pass welded samples. The student prepared various welded coupons using mild steel, carbon steel, and tool steel materials welded with MMA and TIG techniques. The samples were sectioned, mounted, ground, polished, and etched to examine their microstructure under a microscope and determine the microhardness in different zones. The results were analyzed to understand the effects of multi-pass welding and different materials and processes on microstructure and properties.
This document provides a summary of a lecture on reactive oxygen and nitrogen species for medical and graduate students. It gives an overview of these species, including superoxide, hydrogen peroxide, singlet oxygen, and reactive nitrogen species derived from nitric oxide. It discusses both the beneficial and harmful roles of these species in areas like the respiratory burst, reperfusion injury, photodynamic therapy, and disease mechanisms. It also describes the enzymes involved in generating and removing these species, mechanisms of oxidative damage, strategies to mitigate this damage including dietary antioxidants, and implications in disease and drug toxicity. The goal is to teach students the fundamentals of redox biology and its relevance to clinical medicine and health.
Thermiculite sheet gaskets are comprised of chemically and thermally exfoliated vermiculite reinforced with a metallic core. Vermiculite demonstrates better chemical resistance and superior high temperature sealing characteristics compared to graphite. Independent testing showed Thermiculite maintains its integrity and sealing properties at temperatures up to 870°C, whereas graphite starts to lose stress retention above 340°C due to oxidation. Thermiculite is not affected by oxidation and can provide an effective seal even at 500°C, making it suitable for demanding high temperature applications.
Bunting Magnetics Co. is a family-owned manufacturer of magnetic technology products that has served global markets for over 50 years. It produces a broad range of magnetic materials and components, magnetic separation systems, material handling equipment, metal detection equipment, magnetic cylinders, and flexible dies for industries including printing, automotive, plastics, food, electronics, pharmaceutical, and recycling. Bunting offers reliable, high-quality solutions to help manufacturing facilities run more efficiently and protect their reputations.
This document is an American National Standard that provides specifications for gray iron threaded fittings in classes 125 and 250, including dimensions, materials, markings, and tolerances. It defines requirements for elbows, tees, crosses, caps, couplings, and other fittings. The standard was originally published in 1927 and has been revised periodically to incorporate new practices and metric equivalents. It is developed and maintained by the ASME B16 Standards Committee under procedures accredited by the American National Standards Institute.
This catalog from U.S. Seal Mfg provides information for selecting replacement mechanical seals for pumps. It includes cross-reference tables to identify the correct U.S. Seal Mfg part number based on the pump manufacturer's part number. The catalog also details the various seal types and materials offered by U.S. Seal Mfg as well as installation instructions and troubleshooting guidance. Customers can use this catalog to find replacement seals for pumps from manufacturers in various industries such as water, petrochemical, food processing, and more.
This document provides an overview of corrosion protection for passenger car and light truck underbody structural components. It discusses various types of corrosion that can occur, including crevice corrosion, pitting corrosion, and galvanic corrosion. It also covers steel materials, coating methods, manufacturing processes, design considerations, testing methods, and lessons learned from corrosion testing conducted by the Auto/Steel Partnership. The goal is to help automotive engineers and suppliers minimize vehicle weight through the use of thinner, higher-strength steel, while also addressing corrosion issues that can arise from reduced steel thickness.
This document is an American National Standard that establishes specifications for metric hex nuts in style 1, including dimensions, materials, mechanical properties, tolerances, identification markings, quality requirements, and other technical details. It was developed by the American National Standards Committee B18, with input from ISO technical committees, to standardize hex nuts and allow for government procurement. The standard provides specifications for hex nut style 1 dimensions, threads, materials, inspection criteria, and other technical characteristics to ensure consistency and interchangeability.
This report is about investigation of the microstructure and fracture surfaces of failed components. Visit http://www.topengineeringsolutions.com/ for similar projects.
This document provides information on Timken miniature and thin-section bearings, including:
- An overview of Timken and its expertise in precision bearings for mission-critical applications.
- Guidelines for shelf life and proper storage of grease-lubricated bearings, including maximum shelf life assumptions and storage recommendations.
- Details on different types of miniature and thin-section bearings available from Timken, along with engineering information, specifications, and selection guidance.
ASME B16.9 (2013) - Factory Made Wrought Buttwelding fittings..pdfbarrantes1974
The document establishes standards for factory-made wrought buttwelding fittings, including:
1) It defines requirements for pressure ratings, sizes, marking, materials, fitting dimensions, surface contours, end preparations, and design proof and production tests.
2) Tables provide dimensional specifications for various fitting types including elbows, tees, crosses, reducers, and caps.
3) Tolerances for fitting dimensions and requirements for welding bevels and root faces are also specified.
This document provides guidelines for fabricators and erectors of welded steel structures to help promote high quality and cost-effective welding. It summarizes various welding processes such as SMAW, FCAW, SAW and GMAW and provides guidance on welding procedure selection, qualification, quality control and safety. The document incorporates references from the AWS D1.1 structural welding code but is not intended as a substitute for the code. It aims to assist with code compliance and proper workmanship.
This document provides guidelines for fabricators and erectors on welded steel construction. It summarizes various welding processes such as shielded metal arc welding (SMAW), flux-cored arc welding (FCAW), submerged arc welding (SAW), and gas metal arc welding (GMAW). It emphasizes the importance of following welding codes and standards to ensure high quality and safety. The responsibilities of different parties in the construction process are also outlined.
Mr Jonathan Barr is a qualified Electrical Engineer and worked for 20 years with Glasstech as their
Electrical Engineer being involved with trouble-shooting tempering systems around the world. Jonathan retired
from Glasstech as General Manager in 2003 and continued to travel extensively as an independent consultant
on glass tempering systems..
Simulation of Critical Crack Length Propagation Using Fracture Mechanicsijceronline
The document discusses simulation of critical crack length propagation using fracture mechanics principles. It provides background on different types of material failures including buckling, ductile fracture, and brittle fracture. It then discusses fatigue failures and calculates critical crack length, strain amplitude, and mean stress for steel, aluminum, and epoxy materials using linear elastic fracture mechanics. The results show aluminum has the highest strength and life cycle while epoxy has the lowest. It concludes that mixing aluminum and epoxy could increase the life cycle of epoxy materials.
This document contains sections about the mechanical properties of materials, including stress-strain diagrams, fracture at low stresses, fatigue, creep, hardness, and testing of materials. It discusses key concepts such as yield strength, ultimate tensile strength, uniform and non-uniform elongation, and reduction of area. Graphs and tables are provided to illustrate stress-strain behavior for different materials. The document also contains additional sections on mechanics of materials, pipeline flexure stresses, and nondestructive testing.
Galvanizing for Corrosion Protection (AGA)Abrianto Akuan
This document provides an overview of corrosion protection for reinforcing steel through galvanizing. It discusses how corrosion occurs via electrochemical processes on steel and how zinc protects steel through barrier protection and cathodic protection. The hot dip galvanizing process coats steel in a protective zinc layer. Galvanized steel reinforcement provides corrosion resistance and maintains the mechanical properties of steel in concrete structures.
Harlam Enterprise imports, trades, and stocks electrical steel, including CRNGO coils, EI laminations, and strip laminations. It offers various types and grades of EI laminations in CRNGO, as well as CRNGO slit coils and sheets in 0.50mm and 0.65mm thicknesses. The company also provides strip laminations and blanks to customer specifications, and sources CRGO production surplus and offcuts. It serves as a trader and manufacturer of various electrical steel products from its works in Bhiwandi and office in Mumbai.
This document provides standards for gray iron pipe flanges and flanged fittings in classes 25, 125, and 250. It includes information on pressure-temperature ratings, sizes, marking, materials, fitting dimensions and tolerances, bolt and gasket dimensions, hydrostatic tests, and certifications. The document aims to establish uniform requirements for gray iron flanges and fittings to promote interchangeability.
This document provides standards for prequalified connections used in special and intermediate steel moment frames for seismic applications. It summarizes American National Standard ANSI/AISC 358-16, which establishes design requirements, material specifications, quality control procedures, and prequalification limits for several types of moment connections commonly used in seismic steel frames. The standard supersedes previous versions and incorporates two additional prequalified moment connection types.
This document provides an overview of fatigue properties of beta processed and beta heat-treated titanium alloys, with an emphasis on beta annealed Ti-6Al-4V Extra Low Interstitial thick plate. It reviews literature on fatigue initiation sites and mechanisms, initiation lives, and short and long fatigue crack growth behavior. Testing and analysis was conducted to generate fatigue data required for damage tolerance assessments and reassessments of aircraft structures made from this alloy.
This document summarizes the failure analysis of a helical gear used in a steel mill reducer gearbox. Visual examination found two broken teeth with pitting on the contact side. Investigation found the gear material was a low alloy steel and fractography showed brittle fracture from excessive contact stress. The failure was caused by replacing the original motor with a more powerful one, increasing stress over 3 times higher than allowable for the gear material and leading to pitting, crack initiation and growth, and final fracture.
MICROSTRUCTURAL & MICRO HARDNESS ANALYSIS OF DEFECTIVE AND DEFECT FREE MULTI ...Joseph Stynes B. Eng.
This document describes a student project analyzing the microstructure and microhardness of multi-pass welded samples. The student prepared various welded coupons using mild steel, carbon steel, and tool steel materials welded with MMA and TIG techniques. The samples were sectioned, mounted, ground, polished, and etched to examine their microstructure under a microscope and determine the microhardness in different zones. The results were analyzed to understand the effects of multi-pass welding and different materials and processes on microstructure and properties.
This document provides a summary of a lecture on reactive oxygen and nitrogen species for medical and graduate students. It gives an overview of these species, including superoxide, hydrogen peroxide, singlet oxygen, and reactive nitrogen species derived from nitric oxide. It discusses both the beneficial and harmful roles of these species in areas like the respiratory burst, reperfusion injury, photodynamic therapy, and disease mechanisms. It also describes the enzymes involved in generating and removing these species, mechanisms of oxidative damage, strategies to mitigate this damage including dietary antioxidants, and implications in disease and drug toxicity. The goal is to teach students the fundamentals of redox biology and its relevance to clinical medicine and health.
Thermiculite sheet gaskets are comprised of chemically and thermally exfoliated vermiculite reinforced with a metallic core. Vermiculite demonstrates better chemical resistance and superior high temperature sealing characteristics compared to graphite. Independent testing showed Thermiculite maintains its integrity and sealing properties at temperatures up to 870°C, whereas graphite starts to lose stress retention above 340°C due to oxidation. Thermiculite is not affected by oxidation and can provide an effective seal even at 500°C, making it suitable for demanding high temperature applications.
Bunting Magnetics Co. is a family-owned manufacturer of magnetic technology products that has served global markets for over 50 years. It produces a broad range of magnetic materials and components, magnetic separation systems, material handling equipment, metal detection equipment, magnetic cylinders, and flexible dies for industries including printing, automotive, plastics, food, electronics, pharmaceutical, and recycling. Bunting offers reliable, high-quality solutions to help manufacturing facilities run more efficiently and protect their reputations.
This document is an American National Standard that provides specifications for gray iron threaded fittings in classes 125 and 250, including dimensions, materials, markings, and tolerances. It defines requirements for elbows, tees, crosses, caps, couplings, and other fittings. The standard was originally published in 1927 and has been revised periodically to incorporate new practices and metric equivalents. It is developed and maintained by the ASME B16 Standards Committee under procedures accredited by the American National Standards Institute.
This catalog from U.S. Seal Mfg provides information for selecting replacement mechanical seals for pumps. It includes cross-reference tables to identify the correct U.S. Seal Mfg part number based on the pump manufacturer's part number. The catalog also details the various seal types and materials offered by U.S. Seal Mfg as well as installation instructions and troubleshooting guidance. Customers can use this catalog to find replacement seals for pumps from manufacturers in various industries such as water, petrochemical, food processing, and more.
This document provides an overview of corrosion protection for passenger car and light truck underbody structural components. It discusses various types of corrosion that can occur, including crevice corrosion, pitting corrosion, and galvanic corrosion. It also covers steel materials, coating methods, manufacturing processes, design considerations, testing methods, and lessons learned from corrosion testing conducted by the Auto/Steel Partnership. The goal is to help automotive engineers and suppliers minimize vehicle weight through the use of thinner, higher-strength steel, while also addressing corrosion issues that can arise from reduced steel thickness.
This document is an American National Standard that establishes specifications for metric hex nuts in style 1, including dimensions, materials, mechanical properties, tolerances, identification markings, quality requirements, and other technical details. It was developed by the American National Standards Committee B18, with input from ISO technical committees, to standardize hex nuts and allow for government procurement. The standard provides specifications for hex nut style 1 dimensions, threads, materials, inspection criteria, and other technical characteristics to ensure consistency and interchangeability.
This report is about investigation of the microstructure and fracture surfaces of failed components. Visit http://www.topengineeringsolutions.com/ for similar projects.
This document provides information on Timken miniature and thin-section bearings, including:
- An overview of Timken and its expertise in precision bearings for mission-critical applications.
- Guidelines for shelf life and proper storage of grease-lubricated bearings, including maximum shelf life assumptions and storage recommendations.
- Details on different types of miniature and thin-section bearings available from Timken, along with engineering information, specifications, and selection guidance.
ASME B16.9 (2013) - Factory Made Wrought Buttwelding fittings..pdfbarrantes1974
The document establishes standards for factory-made wrought buttwelding fittings, including:
1) It defines requirements for pressure ratings, sizes, marking, materials, fitting dimensions, surface contours, end preparations, and design proof and production tests.
2) Tables provide dimensional specifications for various fitting types including elbows, tees, crosses, reducers, and caps.
3) Tolerances for fitting dimensions and requirements for welding bevels and root faces are also specified.
This document provides guidelines for fabricators and erectors of welded steel structures to help promote high quality and cost-effective welding. It summarizes various welding processes such as SMAW, FCAW, SAW and GMAW and provides guidance on welding procedure selection, qualification, quality control and safety. The document incorporates references from the AWS D1.1 structural welding code but is not intended as a substitute for the code. It aims to assist with code compliance and proper workmanship.
This document provides guidelines for fabricators and erectors on welded steel construction. It summarizes various welding processes such as shielded metal arc welding (SMAW), flux-cored arc welding (FCAW), submerged arc welding (SAW), and gas metal arc welding (GMAW). It emphasizes the importance of following welding codes and standards to ensure high quality and safety. The responsibilities of different parties in the construction process are also outlined.
Bunting Magnetics Co. is a leading manufacturer of magnetic separation and metal detection equipment. They have over 50 years of experience developing precision magnetic products for industries such as food, recycling, and pharmaceuticals. The document provides information on Bunting's metal detection equipment and magnetic separation systems, which help customers safely and efficiently remove metal contamination from their products and processes.
The document is a catalog from Timken that provides information on their tapered roller bearings and related products. It includes an overview of Timken as a company that designs and manufactures high-performance mechanical components including bearings. The catalog contains detailed product information, specifications, and engineering guidance for the proper application and use of Timken's tapered roller bearings. It covers both metric and imperial sized bearings that can be used in applications across multiple industries.
This document describes the American Society of Mechanical Engineers (ASME) B31.3-2008 standard for process piping. It provides requirements for materials, design, fabrication, and testing of process piping systems that operate at pressures above atmospheric but below the criteria for power piping. The standard aims to ensure piping systems can withstand all foreseeable internal and external loads and forces for their design life. It covers piping components, joints, flexibility and supports, and specific piping systems like fuel gas, lubricating oil, and compressed air. The document establishes national consensus requirements to help ensure the safe operation of process piping.
This document summarizes materials and methods for corrosion control in reinforced and prestressed concrete structures. It describes the corrosion process, where salt-induced corrosion of reinforcing steel is a major problem for transportation agencies. It then outlines various corrosion control measures that can be used, including concrete mix design, coatings on reinforcing steel, corrosion inhibitors, cathodic protection, and using corrosion-resistant rebar. The goal of these measures is to prevent chloride ions from contacting the steel and slow the rate of corrosion to increase the service life of concrete structures.
This document provides an overview of an online course on the analysis and design of bolted connections. It discusses screw thread terminology and standards, bolt materials and grades, types of bolted joints, and approaches to designing bolted connections for different loading types such as direct, eccentric, and tension loads. The document covers topics such as thread geometry, common thread standards, bolt material properties, structural bolt grades, and approaches for analyzing shear, bearing, and tension capacity of bolted joints.
The document is a technical manual from Albion Sections that provides specifications for their zed purlins, c sections, and eaves beams. It includes dimensions, weights, connection details, and application examples for their cold formed galvanized steel profile sections. The manual aims to discuss advancements that provide more efficient strength to weight ratios and a better cost effective solution for customers. It also highlights their expanded product range, customization options, and increased production capacity.
EagleBurgmann_Catalog Mechanical seals- Magnetic couplings_EN_22.07.2015Can ?irin
This document provides an overview of various mechanical seals and related products from EagleBurgmann including: mechanical seals for pumps, agitators, compressors, split seals, gas-lubricated seals, dry-running seals, standard cartridge seals, elastomer bellows seals, and magnetic couplings. It also briefly describes EagleBurgmann as a leading manufacturer of industrial sealing solutions offering a wide portfolio of standard and custom seals for applications across many industries.
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(https://www.weldingelectrodemachinery.com/) We are recognized amongst the eminent manufacturers, supplier, trader, importer and exporters of Industrial Process Equipment for extrusion purposes. These are in compliance with the industry standards and are known for their optimum performance, low maintenance & smooth operation. Catering to the requirements of various industries our range is offered in various technical specifications to our clients.
(https://www.egateinfotel.com/) EGATE exemplifies excellence in audio-visual products, is a leading manufacturer, exporter and supplier of Projectors and Accessories meant for the Education, Office, and Home.
(https://www.dynemechsystems.com/) Appreciated across the world for the purpose of exporting, importing, manufacturing, supplying, distributing, wholesaling, trading and retailing a wide range of optimum quality Anti Vibrations Pads, Dynemech Systems Private Limited started its operation in the year 2000 at New Delhi, India. The product range offered by us is inclusive of Insulation Plates, Wedge Mounts and Screw Support Mounts. Known for their rich attributes such as accurate dimension, sturdy construction, high functionality and longer serving life, the offered industrial machine tools are manufactured from high quality materials such as stainless steel.
(https://www.eagleplantprotect.com/) We believe that a well-nurtured, healthy soil enables environment-friendly, healthy agriculture, sustainable across future centuries. Moreover, it also ensures the safety and good health of human generations that live off it. In this expedient battle to regain the purity of our land and soil, our range of organic fertilizers and agrochemical products play momentous roles in protecting nurseries, oilseeds, and vegetables.
(https://www.jatindraengineeringcorporation.com/) With an experience of more than 40 years in the industry we are a part of, we have been able to gain expertise in the manufacture of hot and cold rolling mills, sheet processing lines and steel plant equipment. And today, we proudly boast of being a leader in the same. Our products attract immense demand from India and other countries.
(https://www.hindustanfibretech.in/) Established in the year 2010, we, Hindustan Fibre Tech (HFT), are an ISO 9001:2015 certified firm, which is engaged in manufacturing, exporting and supplying a comprehensive range of Industrial FRP Products. The offered range of products is inclusive of FRP Storage Tanks, FRP Dosing Tanks Reactor Vessel and Process Equipments. The offered range of tanks is manufactured using finest quality fiber reinforced plastic and other raw materials that are obtained from the certified vendors of the market. These products are manufactured adhering to the industry laid standards. Offered products are acclaimed for their rugged construction, durability, high tensile strength and anti-corrosion properties.
(https://www.duracontrolsystems.com/) We are indulged in manufacturing, exporting and supplying a vast range of Automation Control Equipment. Used across numerous industries such as chemical, food processing, glass, nuclear power, robotic, automation, automobile and many more, these equipment have enabled us to garner a huge client base. These are widely appreciated for their ability to withstand harsh industrial environment, service life, robust designing and fast processing speed. We cater the needs of embedded industry by training the young aspiring engineers with required skills and real time project knowledge in embedded technology. Our product range includes Automation Control Equipment, Automation Equipment, Signal Conditioners and Digital Controller. We welcome queries from Tamil Nadu including Chennai, Madras, Coimbatore, Kanyakumari, Nilgiris, Tirupur, Vellore, etc.
(https://www.kentinternational.in/)We are engaged in the fabrication and supply of a wide assortment of home furnishing products and drapery solutions. These home furnishing products are manufactured from industry best materials, procured from reliable and certified vendors. Due to their qualitative diversified features, our home furnishing products have widespread application in the domestic and commercial arena. Our range of home furnishing products includes window blinds, vertical blinds, chic blinds, roller blinds, curtain rods, window awnings, outdoor canopies, PVC flooring, PVC carpet and paper bags.
(https://www.kentinternational.in/) We are engaged in the fabrication and supply of a wide assortment of home furnishing products and drapery solutions. These home furnishing products are manufactured from industry best materials, procured from reliable and certified vendors. Due to their qualitative diversified features, our home furnishing products have widespread application in the domestic and commercial arena. Our range of home furnishing products includes window blinds, vertical blinds, chic blinds, roller blinds, curtain rods, window awnings, outdoor canopies, PVC flooring, PVC carpet and paper bags.
(https://www.3aexports.net/) 3A Exports Group was founded in the year 2010 by visionary founders for Exporting, Trading, and Distribution a wide range of the finest quality products with objective to create a place for us in the world as a leading source of all required products under one roof.
(https://www.bhavanimachines.com/)
About Company
Nature of Business
Exporter and Manufacturer
Year of Establishment
2009
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GST No.
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4. 2 Resilient Metal Seals
History
• Metal O Rings
• Spring Energised Metal O Rings
• Metal C Rings
• Spring Energised Metal C Rings
• Metal Oysterseal®
• Metal Commaseal®
Markets
Quality
The Company
HTMS FUTOM specialises in metallic seals, serving all
markets including Aerospace, Nuclear, Automotive,
Industrial, Medical and others.
HTMS FUTOM is dedicated to produce resilient metal
seals under the most stringent quality procedures. The
company is ISO 9001 certified.
HTMS FUTOM
FUTOM Engineers Pvt. Ltd. (HTMS FUTOM) is a joint
venture company between HTMS NV-Belgium and
FUTOM India. The company was founded in year
2011 by a group of experienced technocrats. HTMS
FUTOM has a combined experience of more than 100
years in manufacturing and designing of
elastic/resilient metal seals. The plant is located in
Pune, India.
The products provided by HTMS FUTOM are:
Following tests can be done on seals:
Also welding equipments are computer controlled
• 100% LP test on O Ring seals welds
• X-ray of weld area on request
• Helium leak test equipment, with electronic data
logging
• Seating load and spring back measurement
• Various heat treatments can be done.
HTMS FUTOM, Resilient Metal Seals are used in a
wide variety of applications where normal seals cannot
handle extremes of temperature, pressure, medium or
combinations there off.
Clean room environment at HTMS, CLASS 5 as per
ISO-14644 (MIL100 as per IEST-STD-CC1246D)
Internal C-Ring with DSO from 6,48
5. 3The Company
Expertise
• More than 100 years of experience
• In-house testing
• R&D new products
• Close co-operation with universities
Flexibility
• Short delivery times
• Rush production procedure
• Dedicated staff
• Quick response time
In-house plating facility
Testing equipment
6. 4 Resilient Metal Seals
Introduction
Function of a Resilient
Metal Seal
The sealing performance of resilient metal seals is
based on the relative high specific contact load at the
sealing line generated by the compression of the seal
to a certain groove depth and a certain resiliency or
springback of the elastic metal seal.
Typically resilient metal seals are compressed 20%.
As an example a 3,18 mm FH (free height) seal is
compressed to approximately 2,5 mm.
In the figure compression starts at point A.
Point B illustrates the maximum groove depth. At this
point the seating load already passed 90% of its
maximum.
Point C illustrates the minimum groove depth or the point
where the seating load reaches its maximum. Reducing
the groove depth even more and thus increasing the
compression ratio can lead to seal failure.
Point D: At this point the seal’s resilience overcomes
the remaining (decompression) load; this resilience is
called springback.
Point E: Springback of the seal at 20% of the maximum
load (Lmax) is the useful springback.
Point F: Springback of the seal at zero load is total
springback = elastic recovery of the seal.
Engineering
Development and Engineering of new products is
conducted in close co-operation with universities.
In-house testing equipment facilitates real hardware
testing and comparison with FEA results.
The Oysterseal®
in this catalogue is one of the results of
this bespoken co-operation.
A
B
C
D
E
F
compression
decompression
Permanent Deformation Useful Springback
COMPRESSION
in mmC maxC min
LOAD
in N
L min
L max
L 20%
HTMS FUTOM
7. 5Introduction
General Information
Sealing Concept
The sealing performance of resilient metal seals is
based on the relative high specific contact load at the
sealing line and a certain resiliency or springback of
the elastic metal seal.
The seating load and the corresponding sealing line
width are a function of the selected seal type, cross
section, material, material thickness and the alloy
properties itself.
Depending on the required tightness and the media
to be sealed, a specific seating load will be required.
Plating or coating with soft, ductile material will provide
better sealing by filling up groove imperfections. The
seating load will make the ductile layer to flow and fill
up the groove surface irregularities.
Resilient metal seals require a controlled compression.
Typically these seals are installed in a machined groove,
or the compression is limited by a so called retainer
plate.
General Properties
• Sizes: diameters from 5 mm to 7 meter
• Cross section from 0,8 mm to 12,5 mm
• Temperature: cryogenic to +750°C
• Pressure: from ultra high vacuum to +500 MPa
• Available in circular, race track, oval and other
shapes
• Excellent resistance to corrosion and radiation
• Maintains elasticity or springback over an extended
service life
• Does not suffer from explosive decompression
• Capable of reaching tightness better than 10–9
mbar.l/s
• Radiation resistant
Material Selection
Exceptions and particular cases
Resilient metal seals often have to perform under extreme
service conditions. Standard solutions as found in this
catalogue may not always suffice these requirements.
High Performance Seals for extreme service conditions.
HTMS FUTOM resilient Metal Seals are designed and
produced to provide the required tightness when
subjected to extremes of temperatures, pressure and
media.
HTMS FUTOM metal seals are produced from stainless
steel or high temperature alloy tubing, strip and wire.
The application parameters determine which material
should be used. Temperature and media are important
aspects in selecting the material. HTMS FUTOM offers
materials such as 321 stainless steel, Inconel® and
other high temperature alloys.
HTMS FUTOM can alter the standard design and
materials to optimize seal performance for a given
application.
With high accuracy and backed by HTMS NV, HTMS
FUTOM can adjust the seals cross section, wall
thickness, selected alloys, to name a few, in order to
adopt seal performance to variables in service.
8. 6 Resilient Metal Seals
Plating - Coating
In-house platings or coatings are applied to improve the
sealing performance of metal seals. Depending on the
required tightness, the selected seal, the media to be sealed
and the condition of the mating surface, a softer or harder
plating or coating shall be chosen. When temperature
allows, either PTFE coating or soft silver should be applied.
The soft layer flows at seal compression into the mating
surface irregularities and creates hereby the best seal
performance possible.
PTFE coating can achieve leak rates around 10–6
mbar.l/s,
measured with the vacuum method.
Metal type plating like silver, indium and tin, to name a
few, can achieve leak rates better than 10–9
mbar.l/s up to
10-12
mbar.l/s.
Heat Treatment
HTMS FUTOM recommends to heat treat all non Spring
Energised Metal C Rings. High performance HTMS
FUTOM metal seals will perform better in the heat
treated condition.
Heat treatment of super alloys such as Inconel X750,
Inconel 718 and Haynes 214 will increase the yield
strength of the material. This influences directly the seal
performances because of increasing seating load and
a better springback.
The increased seating load will press the soft plating
better into the surface irregularities, thereby creating a
better seal.
The higher springback means that the intimate contact
between the seal and the mating surface is maintained
longer in case of flange deflection.
Such flange deflection can be a result of high
temperatures, high pressures and/or a combination
thereof.
Heat treatment is mostly not required for Spring
Energised C Rings and Metal O Rings. However some
demanding applications in Oil and Gas evironment do
require heat treatment to prevent material
embrittlement. (Heat treatment according to Nace)
Annealing and heat treatment also improves the seal’s
resistance against fatigue under cyclic loads. Structural
integrity will be maintained for an extended period of
time.
HTMS FUTOM offers age hardening, annealing and
solution and precipitation heat treatment.
Metal O Rings and some Spring Energized C Rings
made from austenitic stainless steels are not
precipitation hardenable. These seals can only be
supplied in the work hardened condition.
For demanding applications and for temperatures
above 400°C, HTMS FUTOM advises to use high alloy
steels only.
HTMS FUTOM
9. 7Introduction
Heat Treatment Codes for Jacket and Spring materials
Material Code HT-1 HT-2 HT-3 HT-4 HT-5 HT-6 HT-7 HT-8
1 Nickel alloy X-750 X X X
2 Nickel alloy 718 X X X X
3 321 SS X
4 Nickel alloy 600 X X
5 304 SS X
6 304 SS, high tensile X
7 316 SS X
8 Hastelloy X
9 302 SS X
A ELGILLOY X X
B HAYNES 214 X X
C ALUMINIUM 1050 X X
D ALLOY 625 X X
E NIMONIC 90 X
F HASTELLOY C-276 X X
G HAYNES 188 X
HT-1 Work Hardened
HT-2 Age Hardened, short cycle
HT-3 Annealing
HT-4 Solution and Precipitation Heat treatment
HT-5 Nace Heat treatment, Hardness max 40 HRC, Alloy 718
HT-6 Nace Solution Annealing
HT-7 Stress Relief
HT-8 Age Hardened, Hardness max for NACE 62 HRC
Heat Treatment Code Table
10. 8 Resilient Metal Seals
Seal Overview
Metal O Ring for Internal Pressure Page 12
Metal O Ring for External Pressure Page 14
Non vented rings (OI & OE) are designed for lower
pressure ranges. The perfectly closed O Ring design
avoids ingress of the media into the seal.
Moderate load, moderate pressure capability.
Internally (OVI) or externally (OVE) vented O Rings are
designed for higher pressure. Besides the own seating
load, the seal is also energised by the system pressure.
Spring Energised Metal O Ring for internal pressure
(OSI) and for external pressure (OSE) are designed for
extreme low leakage at moderate pressures.
Gas filled Metal O Ring for high temperature and
moderate pressure applications. OGI for internal
pressure and OGE for external pressure.
Metal C Ring for Internal Pressure Page 16
Metal C Ring for External Pressure Page 18
Metal C Ring for internal pressure (CI) and external
pressure (CE) are designed for high pressure (system
pressure energised). They require low bolting load and
have good springback.
HTMS FUTOM
11. 9Seal Overview
Spring Energised C Ring for Internal Pressure Page 20
Spring Energised C Ring for External Pressure Page 22
Metal CS Ring for internal pressure (CSI) and external
pressure (CSE) are designed for high pressure and
excellent tightness performance (system pressure
energised). They require high bolting load and have
good spring back.
Oysterseal® , Metal V Ring for Internal Pressure Page 24
Oysterseal® , Metal V Ring for External Pressure Page 26
The Oysterseal®
is designed for maximum springback
and, as a consequence, is a low load seal. Because of
the low load it will only obtain a good tightness with
very soft plating or coatings.
Metal C Ring for Axial Pressure Page 28
The radial C Ring for axial pressure is designed to seal
shaft to bore. Close tolerances on both shaft and bore
are required.
Metal Commaseal®
for Axial Pressure and ID Dynamic Page 30
Metal Commaseal®
for Axial Pressure and OD Dynamic Page 32
Commaseals®
are designed for slow dynamic
applications on ID or OD.
12. 10 Resilient Metal Seals
Seal Selection Guide
Load and Springback
The selection of the most suitable seal for extreme
service conditions is often a delicate trade-off between
load and springback of the seal. The compression load
or seating load has a direct relation with the obtainable
tightness where as the springback of the seal determines
how well this tightness is maintained with varying
temperatures and pressures.
For a given seal cross section and seal type it is
generally true that with maximum load the springback
is lowest. And of course that seal with minimum load
will generate the highest springback.
Looking at a Metal O Ring made from stainless steel,
one with a thin wall and the other with a thick wall,
the one with the thin wall will require lower load to be
compressed to groove depth than the one with the thick
wall, whereas the springback of the latter will be lower
than the one with the thin wall.
Again looking at the same cross section Metal O Ring, a
seal made from Inconel X750 or Inconel 718 will have
a higher load and higher springback than a similar wall
thickness Metal O Ring made from stainless steel.
Going over to Metal C Rings, there is a certain similarity
with springback and seating load. The big difference
is that Metal C Rings, compared with the same cross
section Metal O Rings, typically generate a lower load
and thus a better springback than Metal O Rings.
To overcome the low load of Metal C Rings, the Spring
Energised Metal C Ring was developed. This seal
generates a relative high and uniform seating load with
a relative high springback.
The Oysterseal®,
or Metal V Ring, by its shape and
material selection, generates a high springback, but
gives only a moderate seating load.
High Performance Seals for extreme service conditions
Commaseal®
Oysterseal®
C Seal
HTMS FUTOM
13. 11Selection Guide
Compression or Seating Load
The compression or seating load is expressed in N/mm
seal circumference. The higher the load, the better the
sealing performance will be. Soft plating requires lower
load than harder plating.
Rough surface finish of the sealing faces require a
higher load to obtain similar seal performance.
Non plated seals typically require extreme high
loads to obtain technical tightness. It will be difficult,
regardless the applied load, to obtain a high tightness
with unplated seals.
Tightness, Plating
Depending on the required tightness, medium to be
sealed and temperature, a different plating or coating
may be selected.
For tightness better than 10–9
mbar.l/s a soft plating
is always required. Indium and tin are soft platings.
PTFE is a soft coating too, but the obtainable tightness
is limited to 10–6
mbar.l/s. because of the own porosity
of PTFE.
Silver, gold and copper are medium soft and require
a higher load seal to obtain tightness ranges of 10–9
mbar.l/s. Silver is the most common used plating.
Nickel plating, being the hardest plating, requires a
high load seal selection.
Flange Rotation or Lift O
Big diameters and high temperatures play a decisive
role in the selection of a metal seal. Flange rotation
or lift off occurs under high pressure. The higher the
pressure and the bigger the flange diameters, subjected
to this pressure, the bolds will be subjected to a quite
high stress and strain, resulting in flange rotation or lift
off.
For such service conditions the biggest possible cross
section for the given diameter should be selected in order
to have the best possible springback characteristics.
Summarizing
The groove surface finish for any selected seal should
be equal or better then Ra = 1,8. For tightness equal or
better than 10–9
mbar.l/s, a surface finish better than
Ra = 0,8 should be applied.
Always select the biggest possible cross section for a
given diameter.
Selected the softest plating allowed for the application.
If bold load permits, choose the highest seal load
available when medium soft plating such as silver, gold
or copper is selected.
For temperatures above 350°C it is advised to use
Inconel as base material.
For pressures above 35 MPa it is advised to use C
Ring type seals or vented O Rings, both with or without
spring energising, depending on the required tightness.
For high temperature applications and when an O Ring
type seal is required a gas filled seal may be the better
option.
Tailormade leaktest
14. 12 Resilient Metal SealsHTMS FUTOM
Seal dimension Groove dimensions Load SB
AS MT DC DG GD WG R
Axial
section
Tolerance
on AS
(cross section)
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove
Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in mm
0,89 +0,08 / -0,03 M 0,15 0,20 6,35-25 0,64-0,69 1,40 0,25 140 0,03
1,19 +0,08 / -0,03 H 0,20 0,25 10-50 0,94-1,02 1,78 0,30 100 0,03
1,57 +0,08 / -0,03
M 0,25
0,28 12-200 1,14-1,27 2,29 0,38
140 0,05
H 0,36 200 0,04
2,39 +0,08 / -0,03
M 0,25
0,33 25-200 1,88-2,01 3,18 0,51
100 0,05
H 0,46 200 0,04
3,18 +0,08 / -0,03
M 0,25
0,43 50-400 2,54-2,67 4,06 0,76
60 0,08
H 0,51 180 0,05
3,96 + 0,10
M 0,41
0,61 75-650 3,18-3,30 5,08 1,27
90 0,10
H 0,51 135 0,08
4,78 + 0,13
M 0,51
0,71 100-800 3,84-3,99 6,35 1,27
95 0,14
H 0,64 200 0,10
6,35 + 0,13
M 0,64
0,76 200-1200 5,05-5,28 8,89 1,52
100 0,20
H 0,81 250 0,15
9,53 + 0,13
M 0,97
1,02 300-2000 8,26-8,51 12,7 1,52
150 0,25
H 1,24 300 0,20
12,7 + 0,15
M 1,27
1,27 800-3000 11,05-11,43 16,51 1,52
200 0,30
H 1,65 350 0,20
AS
MT
DG
WG
R
GD
DC/2
RS
DSO
* Load and springback are based on Inconel X750 in the work hardened condition. 321 stainless steel will only generate 1/3 of the given Inconel
figures. Actual load figures and to a lesser extend springback can differ hugely from the given data. Tolerances on groove depth, plating, diametrical
clearance and differences in material batches can create differences of up to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Metal O Rings - Internal Pressure:
OI OVI OSI OGI
15. 13Datasheets
Seal Diameter (DSO)
007735 = 77,35 mm, for groove diameter 77,88
The seal diameter is always the outside diameter without plating.
The diameter is calculated as follows:
Nominal outside groove diameter, DG, minus clearance or DC (in the table on
the left page) minus 2 times the maximum plating or coating thickness.
or
DSO = DG - DC - (Plating thickness X 2)
See also figure on the left page, below
DSO = 77,88 - 0,43 - 2X 0,05 = 77,35 mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “L, M or H” based on the
desired wall thickness.
Material
The first digit designates the O Ring material, the second
the spring material, in case an OSI type is selected.
Seal Type
OI: Internal pressure,
no venting
OVI: Internal pressure,
O Ring vented,
system pressure energised
OSI: Internal pressure,
O Ring spring energised,
as of section 3,96
OGI: Internal pressure,
O Ring gas filled
example
OI-007735-3.18M-3/0-1-S50
Treatment
1: Work hardened
See Tab on the last page
Plating
Plating Code “S”
= Silver Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 0 None
3 321 SS 1 Alloy X-750 *
4 Alloy 600 2 Alloy 718
9 302 SS
(*) X-750 will become obsolete
Other materials on special request
16. 14 Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS MT DC DG GD WG R
Axial
section
Tolerance
on AS
(cross section)
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove
Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in mm
0,89 +0,08 / -0,03 M 0,15 0,20 6,35-25 0,64-0,69 1,40 0,25 140 0,03
1,19 +0,08 / -0,03 H 0,20 0,25 10-50 0,94-1,02 1,78 0,30 100 0,03
1,57 +0,08 / -0,03
M 0,25
0,28 12-200 1,14-1,27 2,29 0,38
140 0,05
H 0,36 200 0,04
2,39 +0,08 / -0,03
M 0,25
0,33 25-200 1,88-2,01 3,18 0,51
100 0,05
H 0,46 200 0,04
3,18 +0,08 / -0,03
M 0,25
0,43 50-400 2,54-2,67 4,06 0,76
60 0,08
H 0,51 180 0,05
3,96 + 0,10
M 0,41
0,61 75-650 3,18-3,30 5,08 1,27
90 0,10
H 0,51 135 0,08
4,78 + 0,13
M 0,51
0,71 100-800 3,84-3,99 6,35 1,27
95 0,14
H 0,64 200 0,10
6,35 + 0,13
M 0,64
0,76 200-1200 5,05-5,28 8,89 1,52
100 0,20
H 0,81 250 0,15
9,53 + 0,13
M 0,97
1,02 300-2000 8,26-8,51 12,7 1,52
150 0,25
H 1,24 300 0,20
12,7 + 0,15
M 1,27
1,27 800-3000 11,05-11,43 16,51 1,52
200 0,30
H 1,65 350 0,20
AS
MT
RSDSI
DC/2
GD
R
DG WG
* Load and springback are based on Inconel X750 in the work hardened condition. 321 stainless steel will only generate 1/3 of the given Inconel
figures. Actual load figures and to a lesser extend springback can differ hugely from the given data. Tolerances on groove depth, plating, diametrical
clearance and differences in material batches can create differences of up to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Metal O Rings - External Pressure:
OE OVE OSE OGE
HTMS FUTOM
17. 15Datasheets
Seal Diameter (DSI)
006609 = 66,09 mm, for groove ID = 65,66
The seal diameter is always the inside diameter without plating.
The diameter is calculated as follows:
Nominal outside groove diameter, DG, plus clearance or DC (in the table on the
left page) plus 2 times the maximum plating or coating thickness.
or
DSI = DG + DC + (Plating thickness X 2)
See also figure on the left page, below
DSI = 65,66 + 0,33 + 2X 0,05 = 66,09 mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “L, M or H” based on the
desired wall thickness.
Material
The first digit designates the O Ring material, the second
the spring material, in case an OSE type is selected.
Seal Type
OE: External pressure,
no venting
OVE: External pressure,
O Ring vented,
system pressure energised
OSE: External pressure,
O Ring spring energised
as of section 3,96
OGE: External pressure,
O Ring gas filled
example
OE-006609-2.39M-3/0-1-N50
Plating
Plating Code “N”
= Nickel Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 0 None
3 321 SS 1 Alloy X-750 *
4 Alloy 600 2 Alloy 718
9 302 SS
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
18. 16 HTMS FUTOM Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R
Axial
section
Tolerance
on AS
(cross section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in mm
0,79 ±0,05 0,71
M 0,13
0,08 6 - 25 0,64-0,69 1,02 0,25
30 0,04
H 0,18 50 0,03
1,19 ±0,05 0,96
M 0,13
0,13 8 - 50 0,94-1,02 1,40 0,30
20 0,05
H 0,20 35 0,04
1,57 ±0,05 1,26
M 0,15
0,15 10-200 1,27-1,37 1,91 0,38
10 0,08
H 0,25 40 0,06
2,39 ±0,05 1,91
M 0,25
0,20 13-400 1,91-2,01 2,67 0,51
35 0,10
H 0,38 65 0,08
2,79 ±0,05 2,25 M 0,38 0,28 20-500 2.23-2,31 3,10 0,55 30 0,12
3,18 ±0,08 2,54
M 0,38
0,30 30-600 2,54-2,67 3,43 0,76
45 0,15
H 0,51 100 0,13
3,96 ±0,08 3,17
M 0,41
0,41 45-750 3,18-3,30 4,32 1,27
40 0,20
H 0,61 110 0,17
4,78 ±0,10 3,82
M 0,51
0,46 75-900 3,84-3,99 5,08 1,27
65 0,22
H 0,76 150 0,18
5,60 ±0,10 4,50 M 0,51 0,48 75-1000 4,48-4,65 5,90 1,27 55 0,22
6,35 ±0,10 5,08
M 0,64
0,51 100-1200 5,08-5,28 6,60 1,52
75 0,30
H 0,97 160 0,27
7,90 ±0,10 6,32 M 0,97 0,64 100-1500 6,32-6,58 8,22 1,52 65 0,30
9,53 ±0,10 7,62
M 0,97
0,79 300-2000 7,62-8,03 9,65 1,52
120 0,40
H 1,27 250 0,32
12,70 ±0,13 10,16
M 1,27
1,02 600-3000 10,16-10,67 12,70 1,52
150 0,55
H 1,65 250 0,48AS
MT
DG
WG
R
GD
DC/2
RS
DSO
* Load and springback are based on Inconel X750 in the age hardened condition. Actual load and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Metal C Rings - Internal Pressure:
CI
19. 17Datasheets
Seal Diameter (DSO)
009931 = 99,31 mm, for groove OD = 99,82
The seal diameter is always the outside diameter without plating.
The diameter is calculated as follows:
Nominal outside groove diameter, DG, minus clearance or DC (in the table on
the left page) minus 2 times the maximum plating or coating thickness.
or
DSO = DG - DC - (Plating thickness X 2)
See also figure on the left page, below
DSO = 99,82 - 0,41 - 2X 0,05 = 99,31 mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “M or H” based on the
desired wall thickness.
Material
The first digit designates the C Ring material, the second
is always “0” in case of a C Ring
Seal Type
CI: Internal pressure,
system pressure energised
example
CI-009931-3.96M-2/0-2-SN50
Plating
Plating Code “SN”
= Tin Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 0 -
2 Alloy 718 0 -
5 304 SS 0 -
(*) X-750 will become obsolete
Other materials on special request
Treatment
2: Age hardened
See Tab on the last page
20. 18 HTMS FUTOM Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R
Axial
section
Tolerance
on AS
(cross section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in mm
0,79 ±0,05 0,71
M 0,13
0,08 6 - 25 0,64-0,69 1,02 0,25
30 0,04
H 0,18 50 0,03
1,19 ±0,05 0,96
M 0,13
0,13 8 - 50 0,94-1,02 1,40 0,30
20 0,05
H 0,20 35 0,04
1,57 ±0,05 1,26
M 0,15
0,15 10-200 1,27-1,37 1,91 0,38
10 0,08
H 0,25 40 0,06
2,39 ±0,05 1,91
M 0,25
0,20 13-400 1,91-2,01 2,67 0,51
35 0,10
H 0,38 65 0,08
2,79 ±0,05 2,25 M 0,38 0,28 20-500 2.23-2,31 3,10 0,55 30 0,12
3,18 ±0,08 2,54
M 0,38
0,30 30-600 2,54-2,67 3,43 0,76
45 0,15
H 0,51 100 0,13
3,96 ±0,08 3,17
M 0,41
0,41 45-750 3,18-3,30 4,32 1,27
40 0,20
H 0,61 110 0,17
4,78 ±0,10 3,82
M 0,51
0,46 75-900 3,84-3,99 5,08 1,27
65 0,22
H 0,76 150 0,18
5,60 ±0,10 4,50 M 0,51 0,48 75-1000 4,48-4,65 5,90 1,27 55 0,22
6,35 ±0,10 5,08
M 0,64
0,51 100-1200 5,08-5,28 6,60 1,52
75 0,30
H 0,97 160 0,27
7,90 ±0,10 6,32 M 0,97 0,64 100-1500 6,32-6,58 8,22 1,52 65 0,30
9,53 ±0,10 7,62
M 0,97
0,76 300-2000 7,62-8,03 9,65 1,52
120 0,40
H 1,27 250 0,32
12,70 ±0,13 10,16
M 1,27
1,02 600-3000 10,16-10,67 12,70 1,52
150 0,55
H 1,65 250 0,48AS
MT
RSDSI
DC/2
GD
R
DG WG
* Load and springback are based on Inconel X750 in the age hardened condition. Actual load and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Metal C Rings - External Pressure:
CE
21. 19Datasheets
Seal Diameter (DSI)
056688 = 566,88 mm, for groove OD = 566,27
The seal diameter is always the inside diameter without plating.
The diameter is calculated as follows:
Nominal inside groove diameter, DG, plus clearance or DC (in the table on the
left page) plus 2 times the maximum plating or coating thickness.
or
DSI = DG + DC + (Plating thickness X 2)
See also figure on the left page, below
DSI = 566,27 + 0,51 + 2X 0,05 = 566,88mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “M or H” based on the
desired wall thickness.
Material
The first digit designates the C Ring material, the second
is always “0” in case of a C Ring
Seal Type
CE: External pressure,
system pressure energised
example
CE-056688-6.35M-2/0-2-IN50
Plating
Plating Code “IN”
= Indium Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 0 -
2 Alloy 718 0 -
5 304 SS 0 -
(*) X-750 will become obsolete
Other materials on special request
Treatment
2: Age hardened
See Tab on the last page
22. 20 Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R M-Spring
Axial
section
Tolerance on
AS
(cross
section) **
Radial
section
Material
code
Spring
Load
Material
thickness
Jacket
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in
mm
1,57 ±0,05 1,52 M/H 0,15 0,15 20-280 1,27-1,32 2,05 0,35 200 0,10
2,00 ±0,05 1,85 M/H 0,25 0,20 20-300 1,60-1,68 2,50 0,40 180 0,12
2,39 ±0,05 2,24 M/H 0,25 0,20 25-400 1,91-2,01 3,10 0,50 160 0,15
2,79 ±0,05 2,64 M/H 0,38 0,25 25-500 2,23-2,34 3,60 0,50 200 0,18
3,18 ±0,08 2,90 M/H 0,38 0,30 25-600 2,54-2,67 4,10 0,75 160 0,20
3,96 ±0,08 3,60 M/H 0,41 0,41 32-750 3,18-3,30 5,10 1,20 210 0,25
4,78 ±0,10 4,49 M/H 0,51 0,46 75-900 3,84-3,99 6,20 1,20 250 0,28
5,60 ±0,10 5,19 M/H 0,51 0,48 75-1000 4,48-4,70 7,30 1,20 200 0,30
6,35 ±0,10 5,81 M/H 0,64 0,51 100-1800 5,08-5,28 8,30 1,50 340 0,36
7,90 ±0,10 7,25 M/H 0,97 0,70 150-3000 6,32-6,58 10,40 1,50 300 0,40
9,53 ±0,10 8,66 M/H 0,97 0,75 300-3000 7,62-8,03 12,40 1,50 430 0,43
12,70 ±0,13 11,53 M/H 1,27 1,00 600-7600 10,16-10,67 16,50 1,50 500 0,56
AS
MT
DG
WG
R
GD
DC/2
RS
DSO
* Load and springback figures are based on Inconel/Inconel Jacket and Spring. Actual load figures and to a lesser extend springback can differ hugely
from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up to 100%
for the smaller cross sections, down to 50% for the bigger cross section.
Load figures only valid for “M” (medium duty) spring
** In case spring is placed after forming or plating, usually for seals with a diameter > 200 mm, the + tolerance on AS will be slightly higher than standard
(see table page 35). Tolerance on diameter can be half of additional tolerance on AS. In both cases there will be no impact on build-in situation nor on
sealing performance.
Metal CS Rings - Internal Pressure - Spring Energised:
CSI
HTMS FUTOM
23. 21Datasheets
Seal Diameter (DSO)
024563 = 245,63 mm, for groove OD = 246,19
The seal diameter is always the outside diameter without plating.
The diameter is calculated as follows:
Nominal outside groove diameter, DG, minus clearance or DC (in the table on the
left page) minus 2 times the maximum plating or coating thickness.
or
DSO = DG - DC - (Plating thickness X 2)
See also figure on the left page, below
DSO = 246,19- 0,46 - 2X 0,05 = 245,63 mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “M or H” based on the
desired spring load.
Material
The first digit designates the C Ring material, the second
specifies the spring material.
Seal Type
CSI: Internal pressure,
spring energised
example
CSI-024563-4.78M-2/2-1-S50
Plating
Plating Code “S”
= Silver Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 1 Alloy X-750 *
2 Alloy 718 2 Alloy 718
5 304 SS 9 302 SS
- - A Elgiloy
- - E Nimonic
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
24. 22 Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R M-Spring
Axial
section
Tolerance on
AS
(cross
section) **
Radial
section
Material
code
Spring
Load
Material
thickness
Jacket
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in
mm
1,57 ±0,05 1,52 M/H 0,15 0,15 20-280 1,27-1,32 2,05 0,35 200 0,10
2,00 ±0,05 1,85 M/H 0,25 0,20 20-300 1,60-1,68 2,50 0,40 180 0,12
2,39 ±0,05 2,24 M/H 0,25 0,20 25-400 1,91-2,01 3,10 0,50 160 0,15
2,79 ±0,05 2,64 M/H 0,38 0,25 25-500 2,23-2,34 3,60 0,50 200 0,18
3,18 ±0,08 2,90 M/H 0,38 0,30 25-600 2,54-2,67 4,10 0,75 160 0,20
3,96 ±0,08 3,60 M/H 0,41 0,41 32-750 3,18-3,30 5,10 1,20 210 0,25
4,78 ±0,10 4,49 M/H 0,51 0,46 75-900 3,84-3,99 6,20 1,20 250 0,28
5,60 ±0,10 5,19 M/H 0,51 0,48 75-1000 4,48-4,70 7,30 1,20 200 0,30
6,35 ±0,10 5,81 M/H 0,64 0,51 100-1800 5,08-5,28 8,30 1,50 340 0,36
7,90 ±0,10 7,25 M/H 0,97 0,70 150-3000 6,32-6,58 10,40 1,50 300 0,40
9,53 ±0,10 8,66 M/H 0,97 0,75 300-3000 7,62-8,03 12,40 1,50 430 0,43
12,70 ±0,13 11,53 M/H 1,27 1,00 600-7600 10,16-10,67 16,50 1,50 500 0,56
AS
MT
RSDSI
DC/2
GD
R
DG WG
* Load and springback figures are based on Inconel/Inconel Jacket and Spring. Actual load figures and to a lesser extend springback can differ hugely
from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up to 100%
for the smaller cross sections, down to 50% for the bigger cross section.
Load figures only valid for “M” (medium duty) spring
** In case spring is placed after forming or plating, usually for seals with a diameter > 200 mm, the + tolerance on AS will be slightly higher than standard
(see table page 35). Tolerance on diameter can be half of additional tolerance on AS. In both cases there will be no impact on build-in situation nor on
sealing performance.
Metal CS Rings - External Pressure - Spring Energised:
CSE
HTMS FUTOM
25. 23Datasheets
Seal Diameter (DSI)
033534 = 335,34 mm, for groove ID = 334,83
The seal diameter is always the inside diameter without plating.
The diameter is calculated as follows:
Nominal inside groove diameter, DG, plus clearance or DC (in the table on the
left page) plus 2 times the maximum plating or coating thickness.
or
DSI = DG + DC + (Plating thickness X 2)
See also figure on the left page, below
DSI = 334,83 + 0,41 + 2X 0,05 = 335,34 mm
Cross Section
Select the proper cross section or axial
section (AS) in the table, then select the
material code “M or H” based on the
desired spring load.
Material
The first digit designates the C Ring material, the second
specifies the spring material.
Seal Type
CSE: External pressure,
spring energised
example
CSE-033534-3.96H-2/2-1-N50
Plating
Plating Code “N”
= Nickel Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 1 Alloy X-750 *
2 Alloy 718 2 Alloy 718
5 304 SS 9 302 SS
- - A Elgiloy
- - E Nimonic
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
26. 24 Resilient Metal Seals
AS
DG
WG
R
GD
DC/2
RS
DSO
MT* Load and springback figures are based on Inconel 718 in the heat treated condition. Actual load figures and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Oysterseal®
- Internal Pressure:
YI
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R
Axial
section
Tolerance on
AS
(cross section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in %
2,39 ±0,05 2,63 M 0,25 0,14 50-400 1,91-2,01 3,10 0,50 12 80
3,18 ±0,08 3,50 M 0,38 0,19 65-600 2,54-2,67 4,10 0,75 21 80
3,96 ±0,08 4,36 M 0,41 0,24 75-750 3,18-3,30 5,10 1,20 19 80
4,78 ±0,10 5,26 M 0,51 0,29 90-900 3,84-3,99 6,20 1,20 25 80
5,60 ±0,10 6,16 M 0,51 0,34 105-1000 4,48-4,70 7,30 1,20 27 80
6,35 ±0,10 6,99 M 0,64 0,38 150-1800 5,08-5,28 8,30 1,50 30 80
9,53 ±0,10 10,49 M 0,97 0,57 300-3000 7,62-8,03 12,40 1,50 45 80
12,70 ±0,13 13,98 M 1,27 0,76 600-7600 10,16-10,67 16,50 1,50 57 80
HTMS FUTOM
27. 25Datasheets
Seal Diameter (DSO)
005633 = 56,33 mm, for groove OD = 56,58
The seal diameter is always the outside diameter without plating.
The diameter is calculated as follows:
Nominal outside groove diameter, DG, minus clearance or DC (in the table on
the left page) minus 2 times the maximum plating or coating thickness.
or
DSO = DG - DC - (Plating thickness X 2)
See also figure on the left page, below
DSO = 56,58 - 0,19 - 2X 0,03 = 56,33 mm
Cross Section
Select the proper cross section or axial
section (AS) with the corresponding
wall thickness.
Material
The first digit designates the Oysterseal®
seal material,
the second is always a “0” in case of an Oysterseal®
.
Seal Type
YI: Internal pressure
example
YI-005633-3.18M-1/0-1-S30
Plating
Plating Code “S”
= Silver Plating
Plating Thickness “30”
= 10 to 30 Microns
See Tab on the last page
Treatment
1: Work hardened
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 0 -
2 Alloy 718 0 -
5 304 SS 0 -
(*) X-750 will become obsolete
Other materials on special request
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 0 -
2 Alloy 718 0 -
B Haynes 214 0 -
(*) X-750 will become obsolete
Other materials on special request
28. 26 HTMS FUTOM Resilient Metal Seals
Seal dimension Groove dimensions Load SB
AS RS MT DC DG GD WG R
Axial
section
Tolerance on
AS
(cross section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
Diameter
Groove
(range)
Groove Depth
(min/max)
Width
Groove
(min)
Radius
(max)
N/mm
Circum-
ference *
Spring
Back
in %
2,39 ±0,05 2,63 M 0,25 0,14 30-400 1,91-2,01 3,10 0,50 12 80
3,18 ±0,08 3,50 M 0,38 0,19 45-600 2,54-2,67 4,10 0,75 21 80
3,96 ±0,08 4,36 M 0,41 0,24 65-750 3,18-3,30 5,10 1,20 19 80
4,78 ±0,10 5,26 M 0,51 0,29 70-900 3,84-3,99 6,20 1,20 25 80
5,60 ±0,10 6,16 M 0,51 0,34 80-1000 4,48-4,70 7,30 1,20 27 80
6,35 ±0,10 6,99 M 0,64 0,38 120-1800 5,08-5,28 8,30 1,50 30 80
9,53 ±0,10 10,49 M 0,97 0,57 300-3000 7,62-8,03 12,40 1,50 45 80
12,70 ±0,13 13,98 M 1,27 0,76 600-7600 10,16-10,67 16,50 1,50 57 80
AS
MT
RSDSI
DC/2
GD
R
DG WG
* Load and springback figures are based on Inconel 718 in the heat treated condition. Actual load figures and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Oysterseal®
- External Pressure:
YE
29. 27Datasheets
Seal Diameter (DSI)
016622 = 166,22 mm, for groove ID = 165,87
The seal diameter is always the inside diameter without plating.
The diameter is calculated as follows:
Nominal inside groove diameter, DG, plus clearance or DC (in the table on the
left page) plus 2 times the maximum plating or coating thickness.
or
DSI = DG + DC + (Plating thickness X 2)
See also figure on the left page, below
DSI = 165,87 + 0,29 + 2X 0,03 = 166,22 mm
Cross Section
Select the proper cross section or axial
section (AS) with the corresponding
wall thickness.
Material
The first digit designates the Oysterseal®
material, the
second is always a “0” in case of an Oysterseal®
.
Seal Type
YE: External pressure
example
YE-016622-4.78M-1/0-1-C30
Plating
Plating Code “C”
= Copper Plating
Plating Thickness “30”
= 10 to 30 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 0 -
2 Alloy 718 0 -
B Haynes 214 0 -
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
31. 29Datasheets
Seal Diameter (DSO)
008715 = 87,15 mm, for Bore Diameter (BD) = 87,00
for Shaft Diameter (SD) = 80,70
The seal diameter is always the outside diameter without plating.
Select the desired cross section in relation with the bore diameter
Starting from the shaft size 80,70 the DSO (diameter seal outside)
equals Shaft size 80,70 + 6,45 DSO = 87,15
Starting from the bore diameter 87,00 the DSO (diameter seal outside)
equals Bore size 87,00 + 0,15 DSO = 87,15
Plating thickness on radial seals should be limited to 50 microns. Seal diameters
remain unchanged for plated seals.
Cross Section
Select the proper cross section or radial
section (RS)
Material
The first digit designates the jacket material, the second
digit is always a “0”. For CSA type seals the second
digit designates the spring material.
Seal Type
CA: Axial pressure,
system pressure energised
CSA: Axial Pressure with
additional energising
spring
example
CA-008715-3.18M-2/0-1-C50
Plating
Plating Code “C”
= Copper Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 1 Alloy X-750 *
2 Alloy 718 2 Alloy 718
5 304 SS 9 302 SS
- - A Elgiloy
- - E Nimonic
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
32. 30 Resilient Metal Seals
Seal dimension Groove dimensions Load
AS RS MT DC SD range Tol. SD BD Tol. BD GD R Rad.
Axial
section
Tolerance
on AS
(cross
section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
MIN
Shaft
Diameter
(range)
+0 SD
+
-0 Groove
Depth
(min/max)
Radius
(max)
N/mm
Circum-
ference *
1,57 ±0,03 1,79 M 0,15 0,15 20-150 -0,03 3,88 0,15 1,27-1,37 0,30 60
2,39 ±0,05 2,73 M 0,25 0,19 35-200 -0,03 5,84 0,20 1,91-2,01 0,50 70
3,18 ±0,08 3,63 M 0,38 0,23 45-200 -0,03 7,72 0,30 2,54-2,67 0,75 100
3,96 ±0,08 4,52 M 0,41 0,26 60-200 -0,05 9,56 0,35 3,18-3,30 1,20 105
4,78 ±0,10 5,46 M 0,51 0,31 100-200 -0,05 11,54 0,40 3,84-3,99 1,20 130
AS
MT
DSI
DC/2
BD
WG
GD
R
SD
RS
* Load and springback figures are based on Inconel 718 in the heat treated condition. Actual load figures and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Tightness
The tightness with a Commaseal®
(COI) is more than with any other metal seal a function of the shaft condition. The
surface finish of the shaft shall be mirror polished and the hardness shall be high enough so that the sliding motion
of seal and shaft does not detoriate either of them.
In addition we advise to silver plate Commaseal®
for better tightness, reduced friction and wear.
Commaseal®
- Axial Pressure:
COI
HTMS FUTOM
33. 31Datasheets
Seal Diameter (DSI)
010000 = 100,00 mm, for Bore Diameter (BD) = 109,71
The seal diameter is always the shaft diameter without plating.
DSI = SD
Cross Section
Select the proper axial cross section or
radial section (RS)
Material
The first digit designates the Commaseal®
material, the
second, the selected spring.
Seal Type
COI: Dynamic side
at Shaft diameter
example
COI-010000-3.96M-2/2-1-S50
Plating
Plating Code “S”
= Silver Plating
Plating Thickness “50”
= 30 to 50 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 1 Alloy X-750 *
2 Alloy 718 2 Alloy 718
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
34. 32 Resilient Metal Seals
AS
MT
DSO
DC/2
BD
WG
GD
R
SD RS
* Load and springback figures are based on Inconel 718 in the heat treated condition. Actual load figures and to a lesser extend springback can differ
hugely from the given data. Tolerances on groove depth, plating, diametrical clearance and differences in material batches can create differences of up
to 100% for the smaller cross sections, down to 50% for the bigger cross section.
Tightness
The tightness with a Commaseal®
(COE) is more than with any other metal seal a function of the bore condition. The
surface finish of the bore shall be mirror polished and the hardness shall be high enough so that the sliding motion
of seal versus the bore does not detoriate either of them.
In addition we advise to silver plate Commaseal®
for better tightness, reduced friction and wear.
Commaseal®
- Axial Pressure:
COE
Seal dimension Groove dimensions Load
AS RS MT DC SD range Tol. SD BD Tol. BD GD R Rad.
Axial
section
Tolerance
on AS
(cross
section)
Radial
section
Material
code
Material
thickness
Diame-
trical
clearance
MIN
Shaft
Diameter
(range)
+0 SD
+
-0 Groove
Depth
(min/max)
Radius
(max)
N/mm
Circum-
ference *
1,57 ±0,03 1,79 M 0,15 0,15 20-150 -0,03 3,88 0,15 1,27-1,37 0,30 60
2,39 ±0,05 2,73 M 0,25 0,19 35-200 -0,03 5,84 0,20 1,91-2,01 0,50 70
3,18 ±0,08 3,63 M 0,38 0,23 45-200 -0,03 7,72 0,30 2,54-2,67 0,75 100
3,96 ±0,08 4,52 M 0,41 0,26 60-200 -0,05 9,56 0,35 3,18-3,30 1,20 105
4,78 ±0,10 5,46 M 0,51 0,31 100-200 -0,05 11,54 0,40 3,84-3,99 1,20 130
HTMS FUTOM
35. 33Datasheets
Seal Diameter (DSO)
010000 = 100,00 mm, for Shaft Diameter (SD) = 92,19
The seal diameter is always the bore diameter without plating.
DSO = BD
Cross Section
Select the proper cross section or radial
section (RS)
Material
The first digit designates the Commaseal®
material, the
second, the selected spring.
Seal Type
COE: Dynamic side
at Bore diameter
example
COE-010000-3.18M-2/2-1-C30
Plating
Plating Code “C”
= Copper Plating
Plating Thickness “30”
= 10 to 30 Microns
See Tab on the last page
Available Materials & Codes
Jacket Spring
Code Material Code Material
1 Alloy X-750 * 1 Alloy X-750 *
2 Alloy 718 2 Alloy 718
(*) X-750 will become obsolete
Other materials on special request
Treatment
1: Work hardened
See Tab on the last page
36. 34 Resilient Metal Seals
Minimum Radii in mm for shaped Seals
Free Height mm 0,89 1,57 2,39 3,18 3,96 4,78 6,35 9,53 12,7
Metal O Ring 5 10 15 25 50 75 100 200 300
Metal O Spring Ring 15 25 50 75 100 200 300
Metal C Ring 5 7 12 15 25 50 75 200 250
Metal C Spring Ring 12 15 25 50 75 200 250
Non circular seals or so called shaped seals can be
manufactured in O Ring, C Ring and Spring Energised
C Ring and from cross section 0,89 to 12,7 mm.
The picture below shows a number of examples used
in the industry.
The minimum radius for each of the metal ring types is
given in the table below.
More than for other metal seals, HTMS FUTOM asks to
complete an application datasheet and to provide a
sketch or a drawing.
Shaped Seals
Shaped Seals
HTMS FUTOM
37. 35Datasheets
Tolerances
The actual as produced seal diameter shall be as close
as possible to the groove diameter.
By compressing the seal in the groove, the seal outside
diameter for internal pressure seals will try to grow and
the seal inside diameter for external pressure will try to
shrink.
This phenomena is covered by the DC or diametrical
clearance. The DC will give allowance for this increase
or decrease of the seal diameter.
The seal tolerance and also groove tolerance shall
be kept as small as possible. It is better for the seal
performance to keep the DC in compressed condition
as small as possible.
Ideally, once compressed, the seal outer diameter
should slightly touch the groove outer diameter or for
an external pressure seal the inner seal diameter should
slightly touch the groove ID.
Groove Tolerances C Ring Tolerances
Nominal
Diameter
Cavity ID Cavity OD
Nominal
Diameter
Seal OD Seal ID
0 - 3 0 / -0,040 0 / + 0,040 0 - 3 0 / -0,060 0 / +0,060
3 - 6 0 / -0,048 0 / + 0,048 3 - 6 0 / -0,075 0 / +0,075
6 - 10 0 / -0,058 0 / +0,058 6 - 10 0 / -0,090 0 / +0,090
10 - 18 0 / -0,070 0 / +0,070 10 - 18 0 / -0,110 0 / +0,110
18 - 30 0 / -0,084 0 / +0,084 18 - 30 0 / -0,130 0 / +0,130
30 - 50 0 / -0,100 0 / +0,100 30 - 50 0 / -0,160 0 / +0,160
50 - 80 0 / -0,120 0 / +0,120 50 - 80 0 / -0,190 0 / +0,190
80 - 120 0 / -0,140 0 / +0,140 80 - 120 0 / -0,220 0 / +0,220
120 - 180 0 / -0,160 0 / +0,160 120 - 180 0 / -0,250 0 / +0,250
180 - 250 0 / -0,185 0 / +0,185 180 - 250 0 / -0,290 0 / +0,290
250 - 315 0 / -0,210 0 / +0,210 250 - 315 0 / -0,320 0 / +0,320
315 - 400 0 / -0,230 0 / +0,230 315 - 400 0 / -0,360 0 / +0,360
400 - 500 0 / -0,250 0 / +0,250 400 - 500 0 / -0,400 0 / +0,400
500 - 760 0 / -0,300 0 / +0,300 500 - 760 0 / -0,500 0 / +0,500
760 - 1050 0 / -0,400 0 / +0,400 760 - 1050 0 / -0,630 0 / +0,630
1050 - 1425 0 / -0,500 0 / +0,500 1050 - 1425 0 / -0,760 0 / +0,760
1425 - 1940 0 / -0,630 0 / +0,630 1425 - 1940 0 / -1,000 0 / +1,000
O Ring Tolerances
Cross Section Tolerances on Diameter
0,89 - 4,78 +0,130
4,79 - 9,52 +0,200
9,53 - 12,70 +0,250
Modified + tolerance on AS
for CS types diameter seal > 200 mm
Axial Section AS
Additional tolerance (to be added to
standard tolerance)
see page 20 (CSI) and page 22 (CSE)
≤ 3,96 +0,2
> 3,96 ≤ 6,35 +0,3
> 6,35 +0,4
38. 36 HTMS FUTOM Resilient Metal Seals
Warranty
HTMS FUTOM is experienced in the design and
manufacture of resilient metal seals for extreme
environmental service conditions. HTMS FUTOM’
metal seals, O Rings, C Rings, Spring Energised C
Rings and O Rings are produced from high quality
alloy materials with full lot control, full traceability
and inspection procedures at all production steps.
All production procedures starting from purchase to
shipment are controlled by our Q.A. manual. HTMS
FUTOM is an ISO9001 certified manufacturer of
resilient metal seals. Regular internal audits verify
that work procedures are maintained and compliant
with our Q.A. manual.
HTMS FUTOM works closely with its customers to
analyse as correct as possible the sealing problem
and, based on this application data, to design and
manufacture the best seal for the given application.
We strive to manufacture only correct products and
are confident that our seals will be free of all mate-
rial or manufacturing defects. Should a mistake
being made then we will replace, free of charge,
any defective products with the highest priority.
Our warranty is limited to the replacement value of
the defective seals only and does not include any
additional or consequential liabilities.
Resilient metal seals are by design and depending
on the performance requirement sensible seals,
where other parameters such as handling, effective
groove sizes and surface roughness are evenly
important to achieve the desired results.
The seal being only one part of the sealing solution,
HTMS FUTOM cannot guarantee any leakrate, nor
can we accept any liability for costs following poor
sealing results.
However, should the problem be related to faulty
parts HTMS FUTOM will replace free of charge the
parts.
Except for the general recommendations found in
this design manual, we cannot give specific warran-
ties for life-expectancy, leakrate or other operational
parameters.
Customers are always advised to qualify seals,
preferably by real life test, or by similarity, in the
exact configuration of their intended use.
39. Resilient Metal Seals Application Data Sheet
Company Data
Address Phone
Zip Fax
City E-Mail
Contact Title
Application and/or Equipment
Current seal
Customer Item Number
Closing Load
Surface Finish
Flange Materials
Flange Hardness
Static Pressure Cyclic
Internal Pressure Frequency
External pressure Amplitude
Fluid Medium Max. Leak
Leak Test Procedure Max. Leak
Additional Info
(Add Units) At Test Minimum Maximum Operating
Temperature
Pressure
Groove Depth (GD)
Groove Width (GW)
Groove OD (DG) for Internal Pressure
Groove ID (DG) for External Pressure
Yearly Quantities
Lot Sizes
Sample Size
Sketch
HTMS
FUTOM
High Tech Metal Seals
Futu r e of Tomor row
40. Plating
Code
Plating /
Coating
S Silver - max 430°C
G Gold - max 930°C
C Copper - max 930°C
N Nickel - max 1200°C
L Lead - max 200°C
T PTFE - max 290°C
SN Tin-max 200°C
IN Indium-max 130°C
Thickness
Code
Plating
Thickness in µ
30 10 - 30
50 30 - 50
70 50 - 70
Temper
Code
Temper
Description
1 Work hardened-----All
2
Age Hardened-----
X-750 & 718
3
Annealed-----
X-750,718,
Nickel Alloy 600,
Alu 1050
4
Sol. and Prec. HT-----
X-750&718
5
Nace MR0175 --
Inco 718
6 Nace Alloy 625
7 Stress Relief Haynes 214
8 HT Elgiloy