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Standard

AUTOMOTIVE METALLURGICAL JOINING

1970-10-01

HISTORICAL

J836_197010

This report is an abbreviated summary of metallurgical joining by welding, brazing, and soldering. It is generally intended to reflect current usage in the automotive industry; however, it does include some of the more recently developed processes. More comprehensive coverage of materials, processing details, and equipment required may be found in the Welding Handbook, Soldering Manual, and other publications of the American Welding Society and the American Society for Testing and Materials. AWS Automotive Welding Committee publications on Recommended Practices are particularly recommended for the design or product engineer. This report is not intended to cover mechanical joining such as rivets or screw fasteners, or chemical joining processes such as adhesive joining.

Standard

Automotive Metallurgical Joining

2018-01-10

CURRENT

J836_201801

This report is an abbreviated summary of metallurgical joining by welding, brazing, and soldering. It is generally intended to reflect current usage in the automotive industry; however, it does include some of the more recently developed processes. More comprehensive coverage of materials, processing details, and equipment required may be found in the Welding Handbook, Soldering Manual, and other publications of the American Welding Society and the American Society for Testing and Materials. AWS Automotive Welding Committee publications on Recommended Practices are particularly recommended for the design or product engineer. This report is not intended to cover mechanical joining such as rivets or screw fasteners, or chemical joining processes such as adhesive joining.

Standard

CHEMICAL COMPOSITIONS, MECHANICAL PROPERTY LIMITS, AND DIMENSIONAL TOLERANCES OF SAE WROUGHT ALUMINUM ALLOYS

1991-02-01

HISTORICAL

J457_199102

This SAE Standard for wrought aluminum alloys provides sources of chemical and mechanical property data for a considerable range of alloys with varying properties, structures, and applications.

Standard

Chemical Compositions, Mechanical Property Limits, and Dimensional Tolerances of SAE Wrought Aluminum Alloys

2017-12-20

CURRENT

J457_201712

This SAE Standard for wrought aluminum alloys provides sources of chemical and mechanical property data for a considerable range of alloys with varying properties, structures, and applications.

Standard

Engine Poppet Valve Information Report

2018-01-10

CURRENT

J775_201801

This specification supplies engineers and designers with: a Poppet valve nomenclature b Poppet valve alloy designations c Chemical compositions of poppet valve alloys d A guide to valve alloy metallurgy and heat treatments e General information on properties of valve alloys f A guide to the application of valve alloys g A description of valve design and construction, and their relation to valve alloy selection h Valve gear design considerations that affect valves

Standard

GENERAL CHARACTERISTICS AND HEAT TREATMENTS OF STEELS

1995-10-01

CURRENT

J412_199510

The information and data contained in this SAE Information Report are intended as a guide in the selection of steel types and grades for various purposes. Consideration of the individual types of steel is preceded by a discussion of the factors affecting steel properties and characteristics. SAE steels are generally purchased on the basis of chemical composition requirements (SAE J403, J404, and J405). High-strength, low alloy (HSLA) steels (SAE J1392 and J1442) are generally purchased on the basis of mechanical properties; different chemical compositions are used to achieve the specified mechanical properties. Because these steels are characterized by their special mechanical properties obtained in the as-rolled condition, they are not intended for any heat treatment by the purchaser either before, during, or after fabrication. In many instances, as in the case of steels listed in SAE J1268 and J1868, hardenability is also a specification requirement.

Standard

GENERAL DATA ON WROUGHT ALUMINUM ALLOYS

1987-08-01

HISTORICAL

J454_198708

Standard

GENERAL DATA ON WROUGHT ALUMINUM ALLOYS

1991-02-01

HISTORICAL

J454_199102

The SAE Standards for wrought aluminum alloys cover materials with a considerable range of properties and other characteristics, but do not include all of the commercially available materials. If none of the materials listed in Tables 1 through 7 provides the characteristics required by a particular application, users may find it helpful to consult with the suppliers of aluminum alloy products. See companion document, SAE J1434.

Standard

GENERAL INFORMATION—CHEMICAL COMPOSITIONS, MECHANICAL AND PHYSICAL PROPERTIES OF SAE ALUMINUM CASTING ALLOYS

1989-01-01

HISTORICAL

J452_198901

The SAE Standards for aluminum casting alloys cover a wide range of castings for general and special use, but do not include all the alloys in commercial use. Over the years, aluminum alloys have been identified by many numbering systems as shown in Table 1. Presently, SAE is recommending the use of the UNS Numbering System to identify these materials. The castings are made principally by sand cast, permanent mold, or die cast methods; however, shell molding, investment casting, plaster cast, and other less common foundry methods may also be used. If the alloys listed do not have the desired characteristics, it is recommended that the manufacturers of aluminum castings be consulted.

Standard

General Data on Wrought Aluminum Alloys

2018-01-09

CURRENT

J454_201801

The SAE Standards for wrought aluminum alloys cover materials with a considerable range of properties and other characteristics, but do not include all of the commercially available materials. If none of the materials listed in Tables 1 through 7 provides the characteristics required by a particular application, users may find it helpful to consult with the suppliers of aluminum alloy products. See companion document, SAE J1434.

Standard

General Information - Chemical Compositions, Mechanical and Physical Properties of SAE Aluminum Casting Alloys

2018-01-10

CURRENT

J452_201801

The SAE Standards for aluminum casting alloys cover a wide range of castings for general and special use, but do not include all the alloys in commercial use. Over the years, aluminum alloys have been identified by many numbering systems as shown in Table 1. Presently, SAE is recommending the use of the UNS Numbering System to identify these materials. The castings are made principally by sand cast, permanent mold, or die cast methods; however, shell molding, investment casting, plaster cast, and other less common foundry methods may also be used. If the alloys listed do not have the desired characteristics, it is recommended that the manufacturers of aluminum castings be consulted.

Standard

General Information—Chemical Compositions, Mechanical and Physical Properties of SAE Aluminum Casting Alloys

2003-12-01

HISTORICAL

J452_200312

The SAE Standards for aluminum casting alloys cover a wide range of castings for general and special use, but do not include all the alloys in commercial use. Over the years, aluminum alloys have been identified by many numbering systems as shown in Table 1. Presently, SAE is recommending the use of the UNS Numbering System to identify these materials. The castings are made principally by sand cast, permanent mold, or die cast methods; however, shell molding, investment casting, plaster cast, and other less common foundry methods may also be used. If the alloys listed do not have the desired characteristics, it is recommended that the manufacturers of aluminum castings be consulted.

Standard

Glossary of Carbon Steel Sheet and Strip Terms

2019-07-29

CURRENT

J940_201907

This glossary is intended to provide engineers, metallurgists, and production personnel with uniform definitions of commonly used carbon sheet and strip terms. The glossary serves to supplement information and photographs reported in SAE J810, J763, J877, J863, and J403. Many of the terms listed apply only to hot-dipped zinc-coated products or to uncoated products. The letter C following the term identifies a term applying to coated materials, while the letters NC identify a term applying to uncoated materials. Where no identification is provided, the term is common to both.

Standard

INFRARED TESTING

1991-02-01

HISTORICAL

J359_199102

The scope of this SAE Information Report is to provide general information relative to the nature and use of infrared techniques for nondestructive testing. The document is not intended to provide detailed technical information, but will serve as an introduction to the theory and capabilities of infrared testing and as a guide to more extensive references.

Standard

Infrared Testing

2018-01-09

CURRENT

J359_201801

The scope of this SAE Information Report is to provide general information relative to the nature and use of infrared techniques for nondestructive testing. The document is not intended to provide detailed technical information, but will serve as an introduction to the theory and capabilities of infrared testing and as a guide to more extensive references.

Standard

MAGNESIUM CASTING ALLOYS

1989-01-01

HISTORICAL

J465_198901

This document has not changed other than to put it into the new SAE Technical Standards Board Format This SAE Standard covers the most commonly used magnesium alloys suitable for casting by the various commercial processes. The chemical composition limits and minimum mechanical properties are shown. Over the years, magnesium alloys have been identified by many numbering systems, as shown in Table 1. Presently, SAE is recommending the use of the use of the UNS numbering system to identify those materials. Other equally important characteristics such as surface finish and dimensional tolerances are not covered in this standard.

Standard

MAGNESIUM CASTING ALLOYS

1979-04-01

HISTORICAL

J465C_197904

Standard

Magnesium Casting Alloys

2018-01-09

CURRENT

J465_201801

This document has not changed other than to put it into the new SAE Technical Standards Board Format This SAE Standard covers the most commonly used magnesium alloys suitable for casting by the various commercial processes. The chemical composition limits and minimum mechanical properties are shown. Over the years, magnesium alloys have been identified by many numbering systems, as shown in Table 1. Presently, SAE is recommending the use of the use of the UNS numbering system to identify those materials. Other equally important characteristics such as surface finish and dimensional tolerances are not covered in this standard.

Standard

Methods for Determining Plastic Deformation in Sheet Metal Stampings

2015-04-28

CURRENT

J863_201504

This SAE Recommended Practice describes methods for determining plastic deformation encountered in the forming or drawing of sheet steel.

Standard

Properties of Galvanized Low Carbon Sheet Steels and Their relation to Formability

1997-09-01

CURRENT

J1852_199709

The purpose of this SAE Information Report is to describe those properties of galvanized low carbon sheet steel which relate to its formability; that is, its ability to be formed with the structural, dimensional and surface integrity to fulfill the design intent.