Search Results

Standard

High Temperature Materials for Exhaust Manifolds

1999-08-01

HISTORICAL

J2515_199908

A subcommittee within SAE ISTC Division 35 has written this report to provide automotive engineers and designers a basic understanding of the design considerations and high temperature material availability for exhaust manifold use. It is hoped that it will constitute a concise reference of the important characteristics of selected cast and wrought ferrous materials available for this application, as well as methods employed for manufacturing. The different types of manifolds used in current engine designs are discussed, along with their range of applicability. Finally, a general description of mechanical, chemical, and thermophysical properties of commonly-used alloys is provided, along with discussions on the importance of such properties.

Standard

ROAD VEHICLES—HIGH PRESSURE FUEL INJECTION PIPE END—CONNECTIONS WITH 60 DEGREE FEMALE CONE

1988-10-01

HISTORICAL

J1949_198810

This SAE Standard specifies the dimensional requirements for the assembly of high-pressure pipe connections for compression-ignition (diesel) engine fuel injection equipment. It applies to 60 degrees female cones with external threaded connectors types 1 and 2 (see Figures 1, 2, and 3), and to the internal threaded tube nuts and male cone type end assembly (see Figure 4) of high-pressure pipe connections for tubes with diameters up to 12 mm inclusive.

Standard

Seamless, 304/304L Stainless Steel Tubing

2019-10-14

CURRENT

J3129_201910

This SAE Standard covers seamless stainless steel pressure tubing intended for use as hydraulic lines and in other applications requiring corrosion resistance.

Standard

Welded, 304/304L Stainless Steel Tubing

2019-10-14

CURRENT

J3127_201910

This SAE Standard covers welded stainless steel pressure tubing intended for use as hydraulic lines and in other applications requiring corrosion resistance.

Standard

Welded and Cold Drawn, 304/304L Stainless Steel Tubing

2019-10-14

CURRENT

J3128_201910

This SAE Standard covers welded and drawn to size stainless steel pressure tubing intended for use as hydraulic lines and in other applications requiring corrosion resistance.

Standard

Valve Guide Information Report

2017-12-20

CURRENT

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 considerations

Standard

VALVE GUIDE INFORMATION REPORT

1993-09-10

HISTORICAL

J1682_199309

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 considerations

Standard

ELEVATED TEMPERATURE PROPERTIES OF CAST IRONS

1988-05-01

HISTORICAL

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.

Standard

Elevated Temperature Properties of Cast Irons

2018-01-09

CURRENT

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.

Standard

SURFACE ROLLING AND OTHER METHODS FOR MECHANICAL PRESTRESSING OF METALS

1981-08-01

HISTORICAL

J811_198108

Standard

Surface Rolling and Other Methods for Mechanical Prestressing of Metals

2017-06-07

CURRENT

J811_201706

Standard

High Strength, 304/304L Stainless Steel Tubing

2019-10-14

CURRENT

J3135_201910

This SAE standard covers both “welded and cold drawn” and “seamless” stainless steel pressure tubing in the as-cold-drawn high strength condition intended for use as high pressure hydraulic lines and other applications requiring corrosion resistance. Welding, brazing, or other thermal processing methods that subject the tube material or assembly to elevated temperatures may compromise the strength of the tubing.

Standard

LEAF SPRINGS FOR MOTOR VEHICLE SUSPENSION—MADE TO METRIC UNITS

1985-05-01

HISTORICAL

J1123_198505

Standard

LEAF SPRINGS FOR MOTOR VEHICLE SUSPENSION—MADE TO METRIC UNITS

1992-11-01

HISTORICAL

J1123_199211

NOTE—For leaf springs made to customary U.S. units, see SAE J510. This SAE Standard is limited to concise specifications promoting an adequate understanding between spring maker and spring user on all practical requirements in the finished spring. The basic concepts for the spring design and for many of the details have been fully dealt with in HS-J788.

Standard

Leaf Springs For Motor Vehicle Suspension - Made to Metric Units

2016-04-05

CURRENT

J1123_201604

NOTE—For leaf springs made to customary U.S. units, see SAE J510. This SAE Standard is limited to concise specifications promoting an adequate understanding between spring maker and spring user on all practical requirements in the finished spring. The basic concepts for the spring design and for many of the details have been fully dealt with in HS-J788.

Standard

Cleanliness Rating of Steels by the Magnetic Particle Method

2018-01-09

CURRENT

J421_201801

This SAE Recommended Practice provides a rating procedure for the cleanliness rating of steels by the magnetic particle method. The procedure is based on counting the number of indications (frequency) and employs a weighted value to obtain a severity factor. The method outlined is similar to that described in SAE Aerospace Material Specification AMS 2301.

Standard

CLEANLINESS RATING OF STEELS BY THE MAGNETIC PARTICLE METHOD

1977-11-01

HISTORICAL

J421B_197711

This SAE Recommended Practice provides a rating procedure for the cleanliness rating of steels by the magnetic particle method. The procedure is based on counting the number of indications (frequency) and employs a weighted value to obtain a severity factor. The method outlined is similar to that described in SAE Aerospace Material Specification AMS 2301.

Standard

CLEANLINESS RATING OF STEELS BY THE MAGNETIC PARTICLE METHOD

1993-05-01

HISTORICAL

J421_199305

This SAE Recommended Practice provides a rating procedure for the cleanliness rating of steels by the magnetic particle method. The procedure is based on counting the number of indications (frequency) and employs a weighted value to obtain a severity factor. The method outlined is similar to that described in SAE Aerospace Material Specification AMS 2301.

Standard

NONDESTRUCTIVE TESTS

1991-02-01

HISTORICAL

J358_199102

Nondestructive tests are those tests which detect factors related to the serviceability or quality of a part or material without limiting its usefulness. Material defects such as surface cracks, laps, pits, internal inclusions, bursts, shrink, seam, hot tears, and composition analysis can be detected. Sometimes their dimensions and exact location can be determined. Such tests can usually be made rapidly. Processing results such as hardness, case depth, wall thickness, ductility, decarburization, cracks, apparent tensile strength, grain size, and lack of weld penetration or fusion may be detectable and measurable. Service results such as corrosion and fatigue cracking may be detected and measured by nondestructive test methods. In many cases, imperfections can be automatically detected so that parts or materials can be classified.

Standard

NONDESTRUCTIVE TESTS

1980-01-01

HISTORICAL

J358_198001