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Technical Datasheets

View and download our technical datasheets for PM and AM materials.

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Download guidelines for material storage, material safety and processing here.

Featuring:

  • Iron powder storage guidelines
  • AncorMax processing guide
  • Ancolor safety sheets
  • Manganese Sulfide safety sheet

Powder Safety and Guidelines Downloads

Technical papers

Download a vast range technical papers on advancements and innovations in powder metallurgy, including material development and process & product efficiencies.

A library of technical papers concerning powder metallurgy technology and innovation is provided in this section of the GKN Hoeganaes Corporation web site. This library demonstrates how we develop materials leading to property advancement and PM process efficiency. Working with our customers to achieve the most cost efficient solutions using PM technology, we provide design, process and material system education to back our products and technology. Powder metallurgy solutions… is our commitment to our customers worldwide.

Howard I. Sanderow Outstanding Technical Paper Award for 2024

“Comparison of Soft Magnetic Composites (SMC) and Lamination Assemblies”

Bruce Lindsley and Neal Kraus - Hoeganaes Corporation.

Soft magnetic composite (SMC) use in electric motors offers a significant growth opportunity to the PM industry.  Barriers exist, however, that have prevented wide-scale adoption.  Beyond the need for motor redesign, users need to understand the difference in performance and stated properties of SMCs and the dominant stator core technology using lamination (electrical sheet) steels.  Lamination steels used for stator cores have excellent magnetic properties within individual sheets. The comparison of these individual sheet properties, such as maximum saturation and permeability, with powder-based soft magnetic composite properties creates an unfavorable view of SMCs.  The properties of lamination assemblies, however, is lower than individual sheets due to stacking factor and the presence of insulation layers.  Further, it is commonly understood that these stacks tend to work best at lower frequency, whereas SMC is more suited to higher frequency.  The number of direct comparisons of SMC and lamination steel stacks is limited in the literature, resulting in broad generalizations.  In this study, test rings made with assemblies of 2 lamination steel grades and 2 grades of SMC have been evaluated under different test conditions.  The effect of ring size and amount of lubricant are also discussed.  The direct comparison between SMC and lamination steel will enable users of the technology to understand the benefits and limitations of each approach, leading to the best engineering solutions.

2024 Metal Additive Manufacturing Outstanding Technical Paper Award

“Development of an Abrasion Resistant Alloy for the Metal Binder Jet Process”

Chris Schade, Tom Murphy, and Kerri Horvay

Hoeganaes Corporation

In general, hard materials for tooling and wear resistant applications are very difficult to machine, with the most common forming method being grinding. Utilizing a grinding operation severely limits the shape of the final product which can be achieved.  Additive manufacturing (AM), specifically, Metal Binder Jetting (MBJ) allows for intricate shapes to be formed for most alloy materials. This paper highlights the mechanical properties and microstructures of an abrasion resistant alloy category called Ni-Hard. Ni-Hard is a generic name for white cast iron materials alloyed with high chromium and nickel which provide abrasion resistance. The microstructure of Ni-Hard alloys generally consists of carbides within a matrix of martensite-bainite and austenite, the levels of which depend on the chemical composition and the heat treatment. The various heat treatments and their subsequent microstructures along with the hardness and abrasion resistance will be studied in samples produced from the MBJ process.

Major Category Detailed Specific Material Name Size
Material Properties Powder Properties Microstructure and Mechanical Properties of Dual Phase Steel Produced by Laser Powder Bed Fusion (1.86 mb)
Process Powder production Impact Resistance of a Free Sintering Low Alloy Steel Produced by Powder Bed Fusion Using a Laser Beam (2.87 mb)
Process Additive Manufacturing Impact Resistance of a Free Sintering Low Alloy Steel Produced by Powder Bed Fusion Using a Laser Beam (2.87 mb)
Material Properties Mechanical Properties Impact Resistance of a Free Sintering Low Alloy Steel Produced by Powder Bed Fusion Using a Laser Beam (2.87 mb)
Process Sintering Impact Resistance of a Free Sintering Low Alloy Steel Produced by Powder Bed Fusion Using a Laser Beam (2.87 mb)
Material Properties Test Methods Impact Resistance of a Free Sintering Low Alloy Steel Produced by Powder Bed Fusion Using a Laser Beam (2.87 mb)
Material Properties Hardenability Effect of Chemistry and Processing on Sinter-Hardening Performance of Non- Standardized Alloy Compositions (728 kb)
Material Properties Mechanical Properties Effect of Chemistry and Processing on Sinter-Hardening Performance of Non- Standardized Alloy Compositions (728 kb)
Process Sintering Effect of Chemistry and Processing on Sinter-Hardening Performance of Non- Standardized Alloy Compositions (728 kb)
Material Properties Test Methods Effect of Chemistry and Processing on Sinter-Hardening Performance of Non- Standardized Alloy Compositions (728 kb)
Process Additive Manufacturing Development of an Abrasion Resistant Alloy for the Metal Binder Jet Process (1.23 mb)
Material Properties Test Methods Development of an Abrasion Resistant Alloy for the Metal Binder Jet Process (1.23 mb)
Material Properties Powder Properties Comparison of Soft Magnetic Composites (SMC) and Lamination Assemblies (695 kb)
Material Properties Test Methods Comparison of Soft Magnetic Composites (SMC) and Lamination Assemblies (695 kb)
Materials Additives Production Experience with Advanced Lubricants for Improved Compaction Performance (1.51 mb)
Process Compaction Production Experience with Advanced Lubricants for Improved Compaction Performance (1.51 mb)
Material Properties Green Properties Production Experience with Advanced Lubricants for Improved Compaction Performance (1.51 mb)
Materials Alloys Microstructure and Mechanical Properties of Wear-Resistant Alloys Produced by the Laser Powder Bed Fusion Process (1.90 mb)
Material Properties Mechanical Properties Microstructure and Mechanical Properties of Wear-Resistant Alloys Produced by the Laser Powder Bed Fusion Process (1.90 mb)
Process Additive Manufacturing Microstructure and Mechanical Properties of FSLA Steel Produced by the Binder Jet Process (806 kb)
Materials Binder-Treatment & High Density Microstructure and Mechanical Properties of FSLA Steel Produced by the Binder Jet Process (806 kb)
Materials Alloys Process Experience With High Permeability Soft Magnetic Composites (426 kb)
Process Additive Manufacturing Microstructure and Mechanical Properties of Free-Sintering Low Alloy Steel Produced by Three Additive Manufacturing Methods (2.91 mb)
Materials Alloys Microstructure and Mechanical Properties of Free-Sintering Low Alloy Steel Produced by Three Additive Manufacturing Methods (2.91 mb)
Material Properties Hardenability Microstructure and Mechanical Properties of Free-Sintering Low Alloy Steel Produced by Three Additive Manufacturing Methods (2.91 mb)
Material Properties Mechanical Properties Microstructure and Mechanical Properties of Free-Sintering Low Alloy Steel Produced by Three Additive Manufacturing Methods (2.91 mb)
Material Properties Test Methods Microstructure and Mechanical Properties of Free-Sintering Low Alloy Steel Produced by Three Additive Manufacturing Methods (2.91 mb)
Process Additive Manufacturing Development of a Dual Phase - Low Alloy Steel for Laser Powder Bed Fusion (2.56 mb)
Materials Alloys Development of a Dual Phase - Low Alloy Steel for Laser Powder Bed Fusion (2.56 mb)
Material Properties Mechanical Properties Development of a Dual Phase - Low Alloy Steel for Laser Powder Bed Fusion (2.56 mb)
Materials Additives Advanced Lubricants for Modern PM Applications (801 kb)
Materials Binder-Treatment & High Density Advanced Lubricants for Modern PM Applications (801 kb)
Process Compaction Advanced Lubricants for Modern PM Applications (801 kb)
Process Sintering Advanced Lubricants for Modern PM Applications (801 kb)
Materials Alloys Iron-based powder solutions for soft magnetic composite applications (461 kb)
Materials Alloys Microstructure and Mechanical Properties of Heat Treated FSLA Steel Produced by the Binder Jet Process (594 kb)
Material Properties Mechanical Properties Microstructure and Mechanical Properties of Heat Treated FSLA Steel Produced by the Binder Jet Process (594 kb)
Materials Alloys Development of Wear Resistant Alloys for Use in Laser Powder Bed Fusion (1.24 mb)
Process Additive Manufacturing Development of Dual Phase Steel for LPBF Applications (1.16 mb)
Materials Alloys Development of Dual Phase Steel for LPBF Applications (1.16 mb)
Materials Alloys Application of Sinter-Hardenable Materials for Advanced Automotive Applications such as Gears, Cams, and Sprockets (42 kb)
Material Properties Mechanical Properties Application of Sinter-Hardenable Materials for Advanced Automotive Applications such as Gears, Cams, and Sprockets (42 kb)
Process Sintering Application of Sinter-Hardenable Materials for Advanced Automotive Applications such as Gears, Cams, and Sprockets (42 kb)
Materials Alloy Method New High Performance P/M Alloy Substitutes for Malleable and Ductile Cast Irons (274 kb)
Materials Alloys New High Performance P/M Alloy Substitutes for Malleable and Ductile Cast Irons (274 kb)
Materials Binder-Treatment & High Density New High Performance P/M Alloy Substitutes for Malleable and Ductile Cast Irons (274 kb)
Process Sintering New High Performance P/M Alloy Substitutes for Malleable and Ductile Cast Irons (274 kb)
Materials Alloy Method Binder-treated Analogs of Diffusion Alloyed Compositions Based On Ancorsteel 150 HP (70 kb)
Materials Alloys Binder-treated Analogs of Diffusion Alloyed Compositions Based On Ancorsteel 150 HP (70 kb)
Materials Binder-Treatment & High Density Binder-treated Analogs of Diffusion Alloyed Compositions Based On Ancorsteel 150 HP (70 kb)
Materials Alloys Field Experience on A New Sinter-Hardening Material (237 kb)
Process Sintering Field Experience on A New Sinter-Hardening Material (237 kb)
Materials Alloy Method New High Performance PM Alloys for Replacing Ductile Cast Irons (174 kb)
Materials Alloys New High Performance PM Alloys for Replacing Ductile Cast Irons (174 kb)
Materials Binder-Treatment & High Density New High Performance PM Alloys for Replacing Ductile Cast Irons (174 kb)
Process Sintering New High Performance PM Alloys for Replacing Ductile Cast Irons (174 kb)
Material Properties Test Methods Quantitative Image Analysis Technique for Determining Local Density Variation (57 kb)
Materials Alloys Improved Efficiency by Use of Sinter-Hardened P/M Automotive Components (404 kb)
Material Properties Applications Improved Efficiency by Use of Sinter-Hardened P/M Automotive Components (404 kb)
Material Properties Hardenability Improved Efficiency by Use of Sinter-Hardened P/M Automotive Components (404 kb)
Material Properties Mechanical Properties Improved Efficiency by Use of Sinter-Hardened P/M Automotive Components (404 kb)
Process Sintering Improved Efficiency by Use of Sinter-Hardened P/M Automotive Components (404 kb)
Materials Alloys Hardenability of Sintered Fe-B-C Alloys (521 kb)
Material Properties Hardenability Hardenability of Sintered Fe-B-C Alloys (521 kb)
Materials Binder-Treatment & High Density Advances in Binder-Treatment Technology Statistical Data on Ancorbond Plus
(93 kb)
Material Properties Dimensional Behavior Advances in Binder-Treatment Technology Statistical Data on Ancorbond Plus
(93 kb)
Materials Alloy Method Ancorloy Premixes - Binder Treated Analogs of the Diffusion Alloyed Steels
(163 kb)
Materials Binder-Treatment & High Density Ancorloy Premixes - Binder Treated Analogs of the Diffusion Alloyed Steels
(163 kb)
Materials Alloys High Performance PM Stainless Steels
(57 kb)
Materials Binder-Treatment & High Density The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(709 kb)
Process Compaction The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(709 kb)
Material Properties Mechanical Properties The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(709 kb)
Material Properties Test Methods The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(709 kb)
Materials Alloy Method Performance Characteristics of a New Water-Atomized Prealloyed Powder (0.5 Weight Per Cent Molybdenum)
(98 kb)
Materials Alloys Performance Characteristics of a New Water-Atomized Prealloyed Powder (0.5 Weight Per Cent Molybdenum)
(98 kb)
Process Secondary Processing Performance Characteristics of a New Water-Atomized Prealloyed Powder (0.5 Weight Per Cent Molybdenum)
(98 kb)
Materials Binder-Treatment & High Density A Comparison of Ancordense Processed Materials with Malleable Cast Iron
(61 kb)
Process Compaction A Comparison of Ancordense Processed Materials with Malleable Cast Iron
(61 kb)
Process Sintering A Comparison of Ancordense Processed Materials with Malleable Cast Iron
(61 kb)
Materials Alloys A Superior Sinter-Hardenable Material
(1.57 mb)
Materials Binder-Treatment & High Density A Superior Sinter-Hardenable Material
(1.57 mb)
Process Sintering A Superior Sinter-Hardenable Material
(1.57 mb)
Materials Alloys Application of High Performance Material Processing - Electromagnetic Products
(679 kb)
Materials Alloys What Is Sinter-Hardening?
(976 kb)
Material Properties Hardenability What Is Sinter-Hardening?
(976 kb)
Process Sintering What Is Sinter-Hardening?
(976 kb)
Materials Binder-Treatment & High Density Higher Green Strength and Improved Density by Conventional Compaction
(1.55 mb)
Material Properties Green Properties Higher Green Strength and Improved Density by Conventional Compaction
(1.55 mb)
Materials Binder-Treatment & High Density Applications of High Performance Binder Treated Materials
(369 kb)
Process Compaction Applications of High Performance Binder Treated Materials
(369 kb)
Materials Alloys The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(642 kb)
Material Properties Mechanical Properties The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(642 kb)
Material Properties Test Methods The Effect of Microstructure and Pore Morphology on Mechanical and Dynamic Properties of Ferrous PM Materials
(642 kb)
Materials Alloys Application of High Performance Materials and Processes - Alloy Systems
(927 kb)
Material Properties Hardenability Application of High Performance Materials and Processes - Alloy Systems
(927 kb)
Process Sintering Application of High Performance Materials and Processes - Alloy Systems
(927 kb)
Materials Alloy Method The Application of Warm Compaction to High Density Powder Metallurgy Parts
(342 kb)
Materials Binder-Treatment & High Density The Application of Warm Compaction to High Density Powder Metallurgy Parts
(342 kb)
Process Compaction The Application of Warm Compaction to High Density Powder Metallurgy Parts
(342 kb)
Material Properties Mechanical Properties The Application of Warm Compaction to High Density Powder Metallurgy Parts
(342 kb)
Materials Alloys Sinter-Hardening PM Steels
(762 kb)
Material Properties Mechanical Properties Sinter-Hardening PM Steels
(762 kb)
Process Sintering Sinter-Hardening PM Steels
(762 kb)
Materials Alloys The Effect of Service Temperature on the Properties of Ferritic PM Stainless Steels
(1.15 mb)
Material Properties Mechanical Properties The Effect of Service Temperature on the Properties of Ferritic PM Stainless Steels
(1.15 mb)
Process Sintering The Effect of Service Temperature on the Properties of Ferritic PM Stainless Steels
(1.15 mb)
Materials Additives A Performance Comparison of Current PM Lubricants and Routes to Improvement
(1.38 mb)
Materials Alloys A Performance Comparison of Current PM Lubricants and Routes to Improvement
(1.38 mb)
Materials Binder-Treatment & High Density A Performance Comparison of Current PM Lubricants and Routes to Improvement
(1.38 mb)
Material Properties Green Properties A Performance Comparison of Current PM Lubricants and Routes to Improvement
(1.38 mb)
Materials Alloy Method The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Materials Alloys The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Materials Binder-Treatment & High Density The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Process Compaction The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Material Properties Mechanical Properties The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Process Sintering The Effect of Nickel Content, Sintering Temperature and Density on the Properties of a Warm Compacted 0.85 w,o Molybdenum Prealloy
(1.11 mb)
Materials Additives Processing Experience of Green Strength Enhanced Material Systems
(1.55 mb)
Materials Alloys Processing Experience of Green Strength Enhanced Material Systems
(1.55 mb)
Process Compaction Processing Experience of Green Strength Enhanced Material Systems
(1.55 mb)
Material Properties Green Properties Processing Experience of Green Strength Enhanced Material Systems
(1.55 mb)
Materials Alloys The Effect of Microstructure on Fatigue Properties of Ferrous PM Materials
(967 kb)
Material Properties Mechanical Properties The Effect of Microstructure on Fatigue Properties of Ferrous PM Materials
(967 kb)
Material Properties Test Methods The Effect of Microstructure on Fatigue Properties of Ferrous PM Materials
(967 kb)
Materials Alloys The Manufacture of Electromagnetic Components by the Powder Metallurgy Process
(375 kb)
Materials Binder-Treatment & High Density The Manufacture of Electromagnetic Components by the Powder Metallurgy Process
(375 kb)
Process Compaction The Manufacture of Electromagnetic Components by the Powder Metallurgy Process
(375 kb)
Materials Binder-Treatment & High Density Recent Applications of Binder Treatment Technology
(542 kb)
Process Compaction Recent Applications of Binder Treatment Technology
(542 kb)
Material Properties Green Properties Recent Applications of Binder Treatment Technology
(542 kb)
Material Properties Powder Properties Recent Applications of Binder Treatment Technology
(542 kb)
Materials Alloys Powder Metallurgy Materials for AC Magnetic Applications
(91 kb)
Materials Additives Enhanced Green Strength Material System for Ferrous and Stainless PM Processing
(1.90 mb)
Process Compaction Enhanced Green Strength Material System for Ferrous and Stainless PM Processing
(1.90 mb)
Material Properties Green Properties Enhanced Green Strength Material System for Ferrous and Stainless PM Processing
(1.90 mb)
Material Properties Powder Properties Enhanced Green Strength Material System for Ferrous and Stainless PM Processing
(1.90 mb)
Materials Alloy Method The Development of High Performance PM Steels
(1.45 mb)
Materials Binder-Treatment & High Density The Development of High Performance PM Steels
(1.45 mb)
Process Compaction The Development of High Performance PM Steels
(1.45 mb)
Material Properties Mechanical Properties The Development of High Performance PM Steels
(1.45 mb)
Process Secondary Processing The Development of High Performance PM Steels
(1.45 mb)
Process Sintering The Development of High Performance PM Steels
(1.45 mb)
Materials Alloys Single Compaction to Achieve High Density in Ferrous PM Materials in Automotive Applications
(319 kb)
Materials Binder-Treatment & High Density Single Compaction to Achieve High Density in Ferrous PM Materials in Automotive Applications
(319 kb)
Process Compaction Single Compaction to Achieve High Density in Ferrous PM Materials in Automotive Applications
(319 kb)
Materials Binder-Treatment & High Density The Effect of Microstructure on Fatigue Properties of High Density Ferrous PM Materials
(945 kb)
Material Properties Mechanical Properties The Effect of Microstructure on Fatigue Properties of High Density Ferrous PM Materials
(945 kb)
Process Sintering The Effect of Microstructure on Fatigue Properties of High Density Ferrous PM Materials
(945 kb)
Material Properties Test Methods The Effect of Microstructure on Fatigue Properties of High Density Ferrous PM Materials
(945 kb)
Materials Alloy Method Properties of Several Ancordense Processed High Performance Materials
(1.55 mb)
Materials Alloys Properties of Several Ancordense Processed High Performance Materials
(1.55 mb)
Materials Binder-Treatment & High Density Properties of Several Ancordense Processed High Performance Materials
(1.55 mb)
Material Properties Mechanical Properties Properties of Several Ancordense Processed High Performance Materials
(1.55 mb)
Process Sintering Properties of Several Ancordense Processed High Performance Materials
(1.55 mb)
Materials Additives Continuing Improvements in Binder Treatment Technology
(44 kb)
Materials Binder-Treatment & High Density Continuing Improvements in Binder Treatment Technology
(44 kb)
Process Compaction Continuing Improvements in Binder Treatment Technology
(44 kb)
Material Properties Green Properties Continuing Improvements in Binder Treatment Technology
(44 kb)
Material Properties Powder Properties Continuing Improvements in Binder Treatment Technology
(44 kb)
Materials Additives Machinability of PM Steels
(876 kb)
Material Properties Alloy cleanliness Machinability of PM Steels
(876 kb)
Process Secondary Processing Machinability of PM Steels
(876 kb)
Materials Binder-Treatment & High Density Machinability Evaluation of Selected High Green Strength PM Materials
(1.46 mb)
Material Properties Green Properties Machinability Evaluation of Selected High Green Strength PM Materials
(1.46 mb)
Process Secondary Processing Machinability Evaluation of Selected High Green Strength PM Materials
(1.46 mb)
Materials Binder-Treatment & High Density An Investigation into the Effects of Processing Methods on the Mechanical Characteristics of High Performance Ferrous
(587 kb)
Material Properties Mechanical Properties An Investigation into the Effects of Processing Methods on the Mechanical Characteristics of High Performance Ferrous
(587 kb)
Process Sintering An Investigation into the Effects of Processing Methods on the Mechanical Characteristics of High Performance Ferrous
(587 kb)
Material Properties Test Methods An Investigation into the Effects of Processing Methods on the Mechanical Characteristics of High Performance Ferrous
(587 kb)
Materials Binder-Treatment & High Density Advanced Properties of High Density Ferrous Powder Metallurgy Materials
(1.47 mb)
Material Properties Green Properties Advanced Properties of High Density Ferrous Powder Metallurgy Materials
(1.47 mb)
Process Secondary Processing Advanced Properties of High Density Ferrous Powder Metallurgy Materials
(1.47 mb)
Process Sintering Advanced Properties of High Density Ferrous Powder Metallurgy Materials
(1.47 mb)
Materials Alloy Method Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Materials Binder-Treatment & High Density Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Process Compaction Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Material Properties Green Properties Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Material Properties Mechanical Properties Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Process Sintering Properties of Diffusion Bonded Alloys Processed To High Densities
(395 kb)
Materials Binder-Treatment & High Density Recent Developments in Ferrous Powder Metallurgy Alloys
(339 kb)
Process Compaction Recent Developments in Ferrous Powder Metallurgy Alloys
(339 kb)
Process Powder production Continuous Improvements in Atomized Powders through Team-Oriented Problem Solving
(283 kb)
Material Properties Alloy cleanliness Continuous Improvements in Atomized Powders through Team-Oriented Problem Solving
(283 kb)
Material Properties Mechanical Properties Continuous Improvements in Atomized Powders through Team-Oriented Problem Solving
(283 kb)
Process Secondary Processing Laser Welding PM for Automotive Applications
(690 kb)
Materials Additives High Density Processing of Cr-Mn PM Steels
(638 kb)
Materials Alloys High Density Processing of Cr-Mn PM Steels
(638 kb)
Materials Binder-Treatment & High Density High Density Processing of Cr-Mn PM Steels
(638 kb)
Material Properties Mechanical Properties High Density Processing of Cr-Mn PM Steels
(638 kb)
Materials Alloys High Density Processing of High Performance Ferrous Materials
(472 kb)
Materials Binder-Treatment & High Density High Density Processing of High Performance Ferrous Materials
(472 kb)
Process Compaction High Density Processing of High Performance Ferrous Materials
(472 kb)
Material Properties Green Properties High Density Processing of High Performance Ferrous Materials
(472 kb)
Materials Binder-Treatment & High Density Properties of High Density Ferrous PM Materials a Study of Various Processes
(520 kb)
Process Compaction Properties of High Density Ferrous PM Materials a Study of Various Processes
(520 kb)
Material Properties Green Properties Properties of High Density Ferrous PM Materials a Study of Various Processes
(520 kb)
Material Properties Hardenability Properties of Heat Treated PM Alloy Steels
(2.18 mb)
Material Properties Mechanical Properties Properties of Heat Treated PM Alloy Steels
(2.18 mb)
Process Secondary Processing Properties of Heat Treated PM Alloy Steels
(2.18 mb)
Material Properties Test Methods Properties of Heat Treated PM Alloy Steels
(2.18 mb)
Materials Alloys Effects of Powder Properties and Processing On Soft Magnetic Performance of 400-Series Stainless Steel Parts
(699 kb)
Process Sintering Effects of Powder Properties and Processing On Soft Magnetic Performance of 400-Series Stainless Steel Parts
(699 kb)
Materials Alloys Fusion Welding PM Components for Automotive Applications
(431 kb)
Process Secondary Processing Fusion Welding PM Components for Automotive Applications
(431 kb)
Material Properties Test Methods Fusion Welding PM Components for Automotive Applications
(431 kb)
Materials Binder-Treatment & High Density Dust and Segregation-Free Powders for Flexible PM Processing
(298 kb)
Process Compaction Dust and Segregation-Free Powders for Flexible PM Processing
(298 kb)
Material Properties Powder Properties Dust and Segregation-Free Powders for Flexible PM Processing
(298 kb)
Materials Additives Surface-Hardenable Heat Treated PM Steels
(1.17 mb)
Materials Alloys Surface-Hardenable Heat Treated PM Steels
(1.17 mb)
Material Properties Hardenability Surface-Hardenable Heat Treated PM Steels
(1.17 mb)
Material Properties Mechanical Properties Surface-Hardenable Heat Treated PM Steels
(1.17 mb)
Process Sintering Surface-Hardenable Heat Treated PM Steels
(1.17 mb)
Materials Alloys Sinter Hardening Low-Alloy Steels
(897 kb)
Material Properties Mechanical Properties Sinter Hardening Low-Alloy Steels
(897 kb)
Process Sintering Sinter Hardening Low-Alloy Steels
(897 kb)
Materials Alloys High Performance Ferrous PM Materials Utilizing High Temperature Sintering
(951 kb)
Material Properties Mechanical Properties High Performance Ferrous PM Materials Utilizing High Temperature Sintering
(951 kb)
Process Sintering High Performance Ferrous PM Materials Utilizing High Temperature Sintering
(951 kb)
Material Properties Test Methods High Performance Ferrous PM Materials Utilizing High Temperature Sintering
(951 kb)
Materials Alloys Effects of Processing and Materials On Soft Magnetic Performance of Powder Metallurgy Parts
(400 kb)
Materials Alloy Method High Performance Ferrous PM Materials for Automotive Applications
(793 kb)
Materials Alloys High Performance Ferrous PM Materials for Automotive Applications
(793 kb)
Materials Binder-Treatment & High Density High Performance Ferrous PM Materials for Automotive Applications
(793 kb)
Process Secondary Processing PM Joining Processes, Materials and Techniques
(517 kb)
Process Compaction Improved Dimensional Control and Elimination of Heat Treatment for Automotive Parts
(627 kb)
Material Properties Mechanical Properties Improved Dimensional Control and Elimination of Heat Treatment for Automotive Parts
(627 kb)
Process Sintering Improved Dimensional Control and Elimination of Heat Treatment for Automotive Parts
(627 kb)
Materials Alloys Performance Characteristics of a New Sinter Hardening Low Alloy Steel
(656 kb)
Material Properties Mechanical Properties Performance Characteristics of a New Sinter Hardening Low Alloy Steel
(656 kb)
Process Secondary Processing Performance Characteristics of a New Sinter Hardening Low Alloy Steel
(656 kb)
Materials Alloy Method Ferrous Powders - How Alloying Method Influences Sintering
(1.63 mb)
Process Compaction Ferrous Powders - How Alloying Method Influences Sintering
(1.63 mb)
Material Properties Mechanical Properties Ferrous Powders - How Alloying Method Influences Sintering
(1.63 mb)
Process Sintering Ferrous Powders - How Alloying Method Influences Sintering
(1.63 mb)
Material Properties Test Methods Ferrous Powders - How Alloying Method Influences Sintering
(1.63 mb)
Materials Alloys Tensile, Impact and Fatigue Performance of a New Water Atomized Low-Alloy Powder - Ancorsteel 85 HP
(1.18 mb)
Process Compaction Tensile, Impact and Fatigue Performance of a New Water Atomized Low-Alloy Powder - Ancorsteel 85 HP
(1.18 mb)
Material Properties Mechanical Properties Tensile, Impact and Fatigue Performance of a New Water Atomized Low-Alloy Powder - Ancorsteel 85 HP
(1.18 mb)
Process Secondary Processing Tensile, Impact and Fatigue Performance of a New Water Atomized Low-Alloy Powder - Ancorsteel 85 HP
(1.18 mb)
Materials Alloy Method Steering Column Tilt Lever - PM Material Development
(1.14 mb)
Process Compaction Steering Column Tilt Lever - PM Material Development
(1.14 mb)
Material Properties Mechanical Properties Steering Column Tilt Lever - PM Material Development
(1.14 mb)
Process Secondary Processing Steering Column Tilt Lever - PM Material Development
(1.14 mb)
Material Properties Test Methods Steering Column Tilt Lever - PM Material Development
(1.14 mb)
Materials Binder-Treatment & High Density Properties of Parts Made from ANCORBOND Processed Carbon-Nickel-Steel Powder Mix (FN-0208)
(273 kb)
Process Compaction Properties of Parts Made from ANCORBOND Processed Carbon-Nickel-Steel Powder Mix (FN-0208)
(273 kb)
Material Properties Dimensional Behavior Properties of Parts Made from ANCORBOND Processed Carbon-Nickel-Steel Powder Mix (FN-0208)
(273 kb)
Material Properties Test Methods A Review of Nondestructive Testing Methods and Their Applicability to Powder Metallurgy Processing
(1.24 mb)
Material Properties Alloy cleanliness Microcleanlinesss Studies of Low Alloy and Carbon Steel, Powders Intended For Powder Forging Applications
(803 kb)
Materials Alloys Microcleanlinesss Studies of Low Alloy and Carbon Steel, Powders Intended For Powder Forging Applications
(803 kb)
Materials Alloy Method Fatigue Properties of PM Materials
(2.30 mb)
Process Compaction Fatigue Properties of PM Materials
(2.30 mb)
Material Properties Mechanical Properties Fatigue Properties of PM Materials
(2.30 mb)
Process Sintering Fatigue Properties of PM Materials
(2.30 mb)
Materials Alloy Method Impact and Fatigue Characterization of Selected Ferrous P/M Materials
(922 kb)
Material Properties Mechanical Properties Impact and Fatigue Characterization of Selected Ferrous P/M Materials
(922 kb)
Materials Binder-Treatment & High Density Properties of Parts Made From a Binder Treated 0.45 Phosphorus Containing Iron Powder Blend
(164 kb)
Materials Alloy Method High Performance Ferrous PM Materials - The Effect of Alloying Method on Dynamic Properties
(918 kb)
Material Properties Mechanical Properties High Performance Ferrous PM Materials - The Effect of Alloying Method on Dynamic Properties
(918 kb)
Major Category Detailed Specific Material Name Size

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Hoeganaes Corporation is certified under the IATF 16949 Automotive, ISO 14001 Environmental and ISO 45001 Safety management systems.

Hoeganaes Corporation is certified under the IATF 16949 Automotive quality management system. Hoeganaes is also certified under the ISO 14001 Environmental and ISO-45001 Safety management systems.

IATF 16949 is an international standard striving for the development of a Quality Management System that provides for continual improvement stressing the prevention of defects and reducing variation and waste in the supply chain. The International Organization of Standards has based IATF 16949 on ISO9001.

ISO 14001 is an internationally recognized standard used by organizations to design and execute an effective environmental management system.

ISO-45001 is a standard used to promote a safe work environment.

RoHS compliance standard restrics the use of specific hazardous materials found in electrical and electronic products. 

The Responsible Minerals Sourcing Policy addresses the avoidance of sourcing minerals that contribute to armed conflict or human rights abuses. 

Kylan McQuaig
Kylan McQuaig
Your contact for Additive and Metal Powders

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