Criteria

Text:
Topic:
Display:

Results

Viewing 1 to 30 of 207
2018-01-09
WIP Standard
J461_201801
Factors influencing the uses of wrought copper and copper alloys concern electrical conductivity, thermal conductivity, machinability, formability, fatigue characteristics, strength, corrosion resistance, the ease with which alloys can be joined, and the fact that these materials are nonmagnetic. Copper and its alloy also have a wide range of rich, pleasing colors. The only other metal with such distinctive coloring is gold. These materials are all easily finished by buffing, scratch brushing, plating or chemically coloring, or clear protective coating systems. When it is desired to improve one or more of the important properties of copper, alloying often solves the problem. A wide range of alloys, therefore, has been developed and commercially employed, such as the high copper alloys, brasses, leaded brasses, tin bronzes, heat treatable alloys, copper-nickel alloys, nickel silvers, and special bronzes. nickel silvers, and special bronzes.
2018-01-10
WIP Standard
J463_201801
This standard describes the chemical, mechanical, and dimensional requirements for a wide range of wrought copper and copper alloys used in the automotive and related industries. Wrought forms covered by this standard include sheet, strip, bar, plate, rod, wire, tube, and shapes; however, form required must be specified by purchaser.
HISTORICAL
1991-06-01
Standard
J1837_199106
This SAE Standard covers the physical and performance requirements for electrodeposited copper, nickel, and chromium deposits on exterior ornamentation fabricated from die cast zinc alloys (SAE J468 alloys 903 and 925), and wrought zinc strip (ASTM B 69). This type of coating is designed to provide a high degree of corrosion resistance for automotive, truck, marine, and farm usage where a bright, decorative finish is desired.
CURRENT
2017-12-20
Standard
J1837_201712
This SAE Standard covers the physical and performance requirements for electrodeposited copper, nickel, and chromium deposits on exterior ornamentation fabricated from die cast zinc alloys (SAE J468 alloys 903 and 925), and on wrought zinc strip (ASTM B 69). This type of coating is designed to provide a high degree of corrosion resistance for automotive, truck, marine, and farm usage where a bright, decorative finish is desired.
HISTORICAL
1993-08-01
Standard
J1692_199308
This SAE Information Report provides engineers and designers with: Types of valve seat inserts and their nomenclature Valve seat insert alloy designations and their chemistries Valve seat insert alloy metallurgy Typical mechanical and physical properties of insert alloys Recommended interference fits Installation procedures Application considerations
CURRENT
2017-12-20
Standard
J1692_201712
This SAE Information Report provides engineers and designers with: a. types of valve seat inserts and their nomenclature; b. valve seat insert alloy designations and their chemistries; c. valve seat insert alloy metallurgy; d. typical mechanical and physical properties of insert alloys; e. recommended interference fits; f. installation procedures; g. application considerations.
CURRENT
1994-08-01
Standard
J172_199408
This SAE Recommended Practice covers the mechanical and chemical requirements of the best quality hard drawn carbon steel spring wire used for the manufacture of engine valve springs and other springs requiring high fatigue properties. It also covers the basic material and processing requirements of springs fabricated from this wire.
HISTORICAL
1977-02-01
Standard
J1072_197702
This SAE Recommended Practice covers the identification and classification of ceramic, sintered carbide, and other cermet tool products. Its purpose is to provide a standard method for designating the characteristics and properties of sintered tool materials.
CURRENT
2017-12-20
Standard
J1072_201712
This SAE Recommended Practice covers the identification and classification of ceramic, sintered carbide, and other cermet tool products. Its purpose is to provide a standard method for designating the characteristics and properties of sintered tool materials.
CURRENT
2007-12-17
Standard
J1887_200712
This SAE Standard covers the mechanical and physical requirements for Compacted Graphite Iron (CGI) castings used in automotive and allied industries. Requirements in this document include: Tensile Strength Yield Strength Elongation Graphite Morphology
2017-11-16
WIP Standard
J1887
This SAE Standard covers the mechanical and physical requirements for Compacted Graphite Iron (CGI) castings used in automotive and allied industries. Requirements in this document include: a. Tensile Strength b. Yield Strength c. Elongation d. Graphite Morphology Appendix A provides general information on application of this material along with additional data on mechanical and physical properties not specified but useful as a design reference. Appendix B provides a Compacted Graphite Iron Percent Nodularity Rating Chart not specified but useful as a visual reference.
HISTORICAL
1988-12-01
Standard
J172_198812
This SAE Recommended Practice covers the mechanical and chemical requirements of the best quality hard drawn carbon steel spring wire used for the manufacture of engine valve springs and other springs requiring high fatigue properties. It also covers the basic material and processing requirements of springs fabricated from this wire.
HISTORICAL
1995-01-01
Standard
J1755_199501
The scope of this SAE Recommended Practice is to give guidelines for design, processing, and material selection for stainless steel and bimetal exterior automotive moldings.
CURRENT
2018-01-09
Standard
J1755_201801
The scope of this SAE Recommended Practice is to give guidelines for design, processing, and material selection for stainless steel and bimetal exterior automotive moldings.
HISTORICAL
1988-12-01
Standard
J157_198812
This SAE Recommended Practice covers the mechanical and chemical requirements of oil-tempered chromium silicon alloy steel wire used for the manufacture of springs requiring resistance to set when used at moderately elevated temperatures. It also covers the processing requirements of springs fabricated from this wire.
HISTORICAL
1994-06-01
Standard
J157_199406
This SAE Recommended Practice covers the mechanical and chemical requirements of oil-tempered chromium silicon alloy steel wire used for the manufacture of springs requiring resistance to set when used at moderately elevated temperatures. It also covers the processing requirements of springs fabricated from this wire.
CURRENT
1998-06-01
Standard
J157_199806
This SAE Recommended Practice covers the mechanical and chemical requirements of oil-tempered chromium silicon alloy steel wire used for the manufacture of springs requiring resistance to set when used at moderately elevated temperatures. It also covers the processing requirements of springs fabricated from this wire.
CURRENT
2003-04-11
Standard
J158_200304
This standard covers the hardness and microstructural requirements for malleable iron castings - ferritic, pearlitic, tempered pearlitic, and tempered martensitic grades used in automotive and allied industries. Castings shall be heat treated to meet this SAE Standard. The Appendix provides general information on the application of malleable iron castings and their chemical composition to meet hardness, microstructure, and other properties needed for particular service conditions. The mechanical properties in the Appendix are provided for design purposes. The specific grades, hardness range, and final heat treatment are shown in Table 1.
CURRENT
2017-12-20
Standard
J1682_201712
This SAE Information Report provides: a. types of valve guides and their nomenclature; b. valve guide alloy designations and their chemistries; c. valve guide alloy metallurgy; d. typical mechanical and physical properties of guide alloys; e. typical dimensional tolerances of valve guides and their counterbores; f. recommended interference fits; g. installation procedures; h. application consideration.
HISTORICAL
1993-09-10
Standard
J1682_199309
This SAE Information Report provides: Types of valve guides and their nomenclature Valve guide alloy designations and their chemistries Valve guide alloy metallurgy Typical mechanical and physical properties of guide alloys Typical dimensional tolerances of valve guides and their counterbores Recommended interference fits Installation procedures Application considerations
CURRENT
2017-12-20
Standard
J1619_201712
This SAE Recommended Practice defines the set-up and procedure for conducting the SAE single tooth bending fatigue test. The details of the test fixture to be used (referred henceforth as 'the test fixture' in this document) and gear test sample and the procedures for testing and analyzing the data are presented in this document. The objective of this document is to provide a means to evaluate the effects of material and process variables on the bending fatigue behavior of gears using the test fixture. The bending fatigue life of gear teeth is generally influenced by variations in such factors as geometry, material, microstructure, residual stress profile, surface finish, case depth, surface and core hardness. This test serves as a screening tool to evaluate changes in one or more of these variables to enable optimization of the processing and design of gears.
HISTORICAL
1997-01-01
Standard
J1619_199701
This SAE Recommended Practice defines the set-up and procedure for conducting the SAE Single Tooth Bending Fatigue Test. The details of the test fixture to be used (referred henceforth as “the test fixture” in this document) and gear test sample and the procedures for testing and analyzing the data are presented in this document.
HISTORICAL
1983-06-01
Standard
J1434_198306
This report approaches the material selection process from the designer's viewpoint. Information is presented in a format designed to guide the user through a series of decision-making steps. "Applications criteria" along with engineering and manufacturing data are emphasized to enable the merits of aluminum for specific applications to be evaluated and the appropriate alloys and tempers to be chosen.
CURRENT
2018-01-10
Standard
J1434_201801
This report approaches the material selection process from the designer's viewpoint. Information is presented in a format designed to guide the user through a series of decision-making steps. "Applications criteria" along with engineering and manufacturing data are emphasized to enable the merits of aluminum for specific applications to be evaluated and the appropriate alloys and tempers to be chosen.
HISTORICAL
1989-01-01
Standard
J1434_198901
This report approaches the material selection process from the designer's viewpoint. Information is presented in a format designed to guide the user through a series of decision-making steps. "Applications criteria" along with engineering and manufacturing data are emphasized to enable the merits of aluminum for specific applications to be evaluated and the appropriate alloys and tempers to be chosen.
HISTORICAL
1988-05-01
Standard
J125_198805
The purpose of this SAE Information Report is to provide automotive engineers and designers with a concise statement of the basic characteristics of cast iron under elevated temperature conditions. As such, the report concentrates on general statements regarding these properties with limited illustrative data, anticipating that those who may be interested in more detail will want to use the bibliography provided at the conclusion of the report.
CURRENT
2018-01-09
Standard
J125_201801
The purpose of this SAE Information Report is to provide automotive engineers and designers with a concise statement of the basic characteristics of cast iron under elevated temperature conditions. As such, the report concentrates on general statements regarding these properties with limited illustrative data, anticipating that those who may be interested in more detail will want to use the bibliography provided at the conclusion of the report.
HISTORICAL
1988-12-01
Standard
J1267_198812
This information report provides basic information on leakage testing, as applied to nondestructive testing, and affords the user sufficient information so that he may decide whether leakage testing methods apply to his particular need. Detailed references are listed in Section 2.
HISTORICAL
1984-06-01
Standard
J1267_198406
This information report provides basic information on leakage testing, as applied to nondestructive testing, and affords the user sufficient information so that he may decide whether leakage testing methods apply to his particular need. Detailed references are listed in the Bibliography.
HISTORICAL
1979-05-01
Standard
J1267_197905
This information report provides basic information on leakage testing, as applied to nondestructive testing, and affords the user sufficient information so that he may decide whether leakage testing methods apply to his particular need. Detailed references are listed in the Bibliography.
Viewing 1 to 30 of 207

Filter

  • Range:
    to:
  • Year: