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  • ASTM B 883 : 2019

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    Superseded A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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    Standard Specification for Metal Injection Molded (MIM) Materials

    Available format(s):  Hardcopy, PDF

    Superseded date:  27-02-2024

    Language(s):  English

    Published date:  08-05-2019

    Publisher:  American Society for Testing and Materials

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    Abstract - (Show below) - (Hide below)

    This specification covers ferrous metal injection molded materials fabricated by mixing elemental or pre-alloyed metal powders with binders, injecting into a mold, debinding, and sintering, with or without subsequent heat treatment.

    Scope - (Show below) - (Hide below)

    1.1This specification covers ferrous metal injection molded materials fabricated by mixing elemental or pre-alloyed metal powders with binders, injecting into a mold, debinding, and sintering, with or without subsequent heat treatment.

    1.2This specification covers the following injection molded materials.

    1.2.1Compositions:

    1.2.1.1MIM-2200, low-alloy steel

    1.2.1.2MIM-2700, low-alloy steel

    1.2.1.3MIM-4605, low-alloy steel

    1.2.1.4MIM-4140, low-alloy steel

    1.2.1.5MIM-316L, austenitic stainless steel

    1.2.1.6MIM-17-4 PH, precipitation hardening stainless steel

    1.2.1.7MIM-420, martensitic stainless steel

    1.2.1.8MIM-430L, ferritic stainless steel

    1.2.1.9MIM-440, martensitic stainless steel

    1.2.1.10MIM-Cu, copper

    1.3Chemical composition limits are specified in Table 1.

    1.4With the exception of the values for density and the mass used to determine density, for which the use of the gram per cubic centimetre (g/cm3) and gram (g) units is the longstanding industry practice, the values in inch-pound units are to be regarded as standard. The values given in parentheses or in separate tables are mathematical conversions to SI units that are provided for information only and are not considered standard.

    1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

    1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

    General Product Information - (Show below) - (Hide below)

    Committee B 09
    Document Type Standard
    Product Note This standard is also refers to MPIF Standard 35,MPIF Standard 50,MPIF Standard 51,MPIF Standard 59,MPIF Standard 62,MPIF Standard 63
    Publisher American Society for Testing and Materials
    Status Superseded
    Superseded By
    Supersedes

    Standards Referencing This Book - (Show below) - (Hide below)

    ASTM B 311 : 2017 Standard Test Method for Density of Powder Metallurgy (PM) Materials Containing Less Than Two Percent Porosity
    ASTM E 1621 : 2013 Standard Guide for Elemental Analysis by Wavelength Dispersive X-Ray Fluorescence Spectrometry
    ASTM E 228 : 2017 Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer
    ASTM E 1461 : 2011 Standard Test Method for Thermal Diffusivity by the Flash Method
    ASTM E 1461 : 2007 Standard Test Method for Thermal Diffusivity by the Flash Method
    ASTM E 18 : 2022 Standard Test Methods for Rockwell Hardness of Metallic Materials
    ASTM E 1086 : 1994 : R2000 Standard Test Method for Optical Emission Vacuum Spectrometric Analysis of Stainless Steel by the Point-to-Plane Excitation Technique
    ASTM E 1621 : 2005 Standard Guide for X-Ray Emission Spectrometric Analysis
    ASTM E 18 : 2020 Standard Test Methods for Rockwell Hardness of Metallic Materials
    ASTM E 1019 : 2018 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel, Iron, Nickel, and Cobalt Alloys by Various Combustion and Inert Gas Fusion Techniques
    ASTM B 311 : 1993 : R1997 Test Method for Density Determination for Powder Metallurgy (P/M) Materials Containing Less Than Two Percent Porosity
    ASTM E 1019 : 2003 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel and in Iron, Nickel, and Cobalt Alloys
    ASTM B 243 : 2022 Standard Terminology of Powder Metallurgy
    ASTM E 1621 : 2022 Standard Guide for Elemental Analysis by Wavelength Dispersive X-Ray Fluorescence Spectrometry
    ASTM E 415 : 2021 Standard Test Method for Analysis of Carbon and Low-Alloy Steel by Spark Atomic Emission Spectrometry
    ASTM E 1086 : 2014 Standard Test Method for Analysis of Austenitic Stainless Steel by Spark Atomic Emission Spectrometry
    ASTM E 1019 : 2008 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel, Iron, Nickel, and Cobalt Alloys by Various Combustion and Fusion Techniques
    ASTM E 415 : 2017 Standard Test Method for Analysis of Carbon and Low-Alloy Steel by Spark Atomic Emission Spectrometry
    ASTM B 962 : 2017 Standard Test Methods for Density of Compacted or Sintered Powder Metallurgy (PM) Products Using Archimedes’ Principle
    ASTM E 1621 : 2021 Standard Guide for Elemental Analysis by Wavelength Dispersive X-Ray Fluorescence Spectrometry
    ASTM B 311 : 2022 Standard Test Method for Density of Powder Metallurgy (PM) Materials Containing Less Than Two Percent Porosity
    ASTM F 1089 : 2002 Standard Test Method for Corrosion of Surgical Instruments
    ASTM F 1089 : 2010 Standard Test Method for Corrosion of Surgical Instruments
    ASTM B 243 : 2020 Standard Terminology of Powder Metallurgy
    ASTM E 1461 : 1992 Standard Test Method for Thermal Diffusivity of Solids by the Flash Method
    ASTM E 1086 : 2008 Standard Test Method for Optical Emission Vacuum Spectrometric Analysis of Stainless Steel by the Point-to-Plane Excitation Technique
    ASTM E 350 : 2023 Standard Test Methods for Chemical Analysis of Carbon Steel, Low-Alloy Steel, Silicon Electrical Steel, Ingot Iron, and Wrought Iron
    ASTM B 243 : 2023 Standard Terminology of Powder Metallurgy
    ASTM E 18 : 2019 Standard Test Methods for Rockwell Hardness of Metallic Materials
    ASTM E 1086 : 2022 Standard Test Method for Analysis of Austenitic Stainless Steel by Spark Atomic Emission Spectrometry
    ASTM E 350 : 2018 Standard Test Methods for Chemical Analysis of Carbon Steel, Low-Alloy Steel, Silicon Electrical Steel, Ingot Iron, and Wrought Iron
    ASTM E 1461 : 2013 : R2022 Standard Test Method for Thermal Diffusivity by the Flash Method
    ASTM E 1461 : 2013 Standard Test Method for Thermal Diffusivity by the Flash Method
    ASTM E 1461 : 2001 Standard Test Method for Thermal Diffusivity of Solids by the Flash Method
    ASTM F 1089 : 1987 : R1994 : EDT 1 Standard Test Method for Corrosion of Surgical Instruments
    ASTM E 1621 : 1994 : R1999 Standard Guide for X-Ray Emission Spectrometric Analysis
    ASTM E 1019 : 2000 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel and in Iron, Nickel, and Cobalt Alloys
    ASTM B 962 : 2023 Standard Test Methods for Density of Compacted or Sintered Powder Metallurgy (PM) Products Using Archimedes’ Principle
    ASTM E 1086 : 1994 : R2005 Standard Test Method for Optical Emission Vacuum Spectrometric Analysis of Stainless Steel by the Point-to-Plane Excitation Technique
    ASTM F 1089 : 2018 Standard Test Method for Corrosion of Surgical Instruments
    ASTM E 1019 : 2002 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel and in Iron, Nickel, and Cobalt Alloys
    ASTM E 228 : 2022 Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer
    ASTM E 1019 : 2011 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel, Iron, Nickel, and Cobalt Alloys by Various Combustion and Fusion Techniques
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