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Standard

Fatigue Testing Procedure for Suspension-Leaf Springs

2016-04-05
CURRENT
J1528_201604
Only fully processed new springs which are representative of springs intended for the vehicle shall be used for the tests. No complete spring or separate leaf shall be used for more than one test.
Standard

FATIGUE TESTING PROCEDURE FOR SUSPENSION-LEAF SPRINGS

1990-06-30
HISTORICAL
J1528_199006
Only fully processed new springs which are representative of springs intended for the vehicle shall be used for the tests. No complete spring or separate leaf shall be used for more than one test.
Standard

Multi-Dimensional Thermal Properties of Insulated Heat Shield Material Systems

2018-08-24
CURRENT
J2609_201808
This test method measures the system material properties of an insulated formed heat shield under in-vehicle conditions. While the material properties of the individual components can often be determined via existing test methods, the system properties of the entire composite is typically much harder to ascertain (especially for multi-layer shields). System material properties include thermal conductivity in the lateral or in-plane (x) direction, thermal conductivity through the thickness or perpendicular (y), surface emissivity on the top and bottom sides of the shield and specific heat of the shield material.
Standard

Multi-Dimensional Thermal Properties of Insulated Heat Shield Material Systems

2003-12-03
HISTORICAL
J2609_200312
This test method measures the system material properties of an insulated formed heat shield under in-vehicle conditions. While the material properties of the individual components can often be determined via existing test methods, the system properties of the entire composite is typically much harder to ascertain (especially for multi-layer shields). System material properties include thermal conductivity in the lateral or in-plane (x) direction, thermal conductivity through the thickness or perpendicular (y), surface emissivity on the top and bottom sides of the shield and specific heat of the shield material.
Standard

Ball Stud and Socket Assembly - Test Procedures

2012-10-15
CURRENT
J193_201210
The test procedures describe a method to laboratory test suspension and steering system ball stud and/or socket assemblies for functional characteristics. This procedure is an extension of SAE J491b recommended practice on dimensional recommendations for ball studs towards a vehicle application. The tests are conducted either on ball studs individually or on complete integral assemblies representing the application.
Standard

Test Method for Evaluating the Sealing Capability of Hose Connections with a PVT Test Facility

2012-10-24
CURRENT
J1610_201210
This test method provides a standardized procedure for evaluating the sealing capability of a hose connection or any of the individual components of the connection with a pressure, vibration, and temperature (PVT) test facility. This test method consists of a test procedure which includes vibration and coolant flow (#1 ) and a similar test procedure specified without vibration or coolant flow (#2). Any test parameters, other than those specified in this SAE Recommended Practice, are to be agreed to by the tester and the requestor.
Standard

Test Method for Evaluating the Sealing Capability of Hose connections with a PVT Test Facility

1992-06-24
HISTORICAL
J1610_199206
This test method provides a standardized procedure for evaluating the sealing capability of a hose connection or any of the individual components of the connection with a pressure, vibration, and temperature (PVT) test facility. This test method consists of a test procedure which includes vibration and coolant flow and a similar test procedure specified without vibration or coolant flow. Any test parameters, other than those specified in this SAE Recommended Practice, are to be agreed to by the tester and the requestor.
Standard

Test Method for Evaluating the Sealing Capability of Hose Connectionswith a PVT Test Facility

2001-06-08
HISTORICAL
J1610_200106
This test method provides a standardized procedure for evaluating the sealing capability of a hose connection or any of the individual components of the connection with a pressure, vibration, and temperature (PVT) test facility. This test method consists of a test procedure which includes vibration and coolant flow (#1) and a similar test procedure specified without vibration or coolant flow (#2). Any test parameters, other than those specified in this SAE Recommended Practice, are to be agreed to by the tester and the requestor.
Standard

GUIDELINES FOR LABORATORY CYCLIC CORROSION TEST PROCEDURES FOR PAINTED AUTOMOTIVE PARTS

1993-10-13
HISTORICAL
J1563_199310
These guidelines are intended for those engineers and scientists who evaluate the corrosion performance of painted automotive parts in laboratory cyclic tests. The guidelines are intended to help ensure that the results of the tests can be used to reach conclusions concerning the variables under study without being confounded by the test procedure itself. The guidelines also serve as a means to assist users of this type of test in obtaining good inter-laboratory agreement of results.
Standard

Guidelines for Laboratory Cyclic Corrosion Test Procedures for Painted Automotive Parts

2016-04-05
CURRENT
J1563_201604
These guidelines are intended for those engineers and scientists who evaluate the corrosion performance of painted automotive parts in laboratory cyclic tests. The guidelines are intended to help ensure that the results of the tests can be used to reach conclusions concerning the variables under study without being confounded by the test procedure itself. The guidelines also serve as a means to assist users of this type of test in obtaining good inter-laboratory agreement of results.
Standard

STAINLESS STEEL 17-7 PH SPRING WIRE AND SPRINGS

1994-07-01
HISTORICAL
J217_199407
This SAE Recommended Practice covers a high-quality corrosion-resisting steel wire, cold drawn, formed, and heat treated to produce uniform mechanical properties. It is magnetic in all conditions. It is intended for the manufacture of springs and wire forms that are to be heat treated after forming to enhance the spring properties. This document also covers processing requirements of the springs and forms fabricated from this wire.
Standard

Stainless Steel 17-7 PH Spring Wire and Springs

2016-04-05
CURRENT
J217_201604
This SAE Recommended Practice covers a high-quality corrosion-resisting steel wire, cold drawn, formed, and heat treated to produce uniform mechanical properties. It is magnetic in all conditions. It is intended for the manufacture of springs and wire forms that are to be heat treated after forming to enhance the spring properties. This document also covers processing requirements of the springs and forms fabricated from this wire.
Standard

PROVING GROUND VEHICLE CORROSION TESTING

1989-05-01
HISTORICAL
J1950_198905
The facilities used by domestic automotive manufacturers to provide accelerated corrosion aging of complete vehicles are described in general. The types of vehicles tested, general test methodology, and techniques used to determine test-to-field correlation are discussed. The different procedures used throughout the industry produce different results on various vehicle coatings, components, and systems. The key to successful interpretation of test results is a thorough understanding of the corrosion mechanisms involved and the effects of test limitations on these mechanisms.
Standard

Proving Ground Vehicle Corrosion Testing

2016-04-05
CURRENT
J1950_201604
The facilities used by domestic automotive manufacturers to provide accelerated corrosion aging of complete vehicles are described in general. The types of vehicles tested, general test methodology, and techniques used to determine test-to-field correlation are discussed. The different procedures used throughout the industry produce different results on various vehicle coatings, components, and systems. The key to successful interpretation of test results is a thorough understanding of the corrosion mechanisms involved and the effects of test limitations on these mechanisms.
Standard

Ball Stud and Socket Assembly-Test Procedures

1996-06-01
HISTORICAL
J193_199606
The test procedures describe a method to laboratory test suspension and steering system ball stud and/or socket assemblies for functional characteristics. This procedure is an extension of SAE J 491b recommended practice on dimensional recommendations for ball studs towards a vehicle application. The tests are conducted either on ball studs individually or on complete integral assemblies representing the application. The purpose of this document is to provide a uniform method of testing ball studs and ball stud and socket assemblies to ensure that the parts will meet functional requirements of the application.
Standard

Ball Joints

1996-09-01
HISTORICAL
J490_199609
This SAE Standard covers the general and dimensional data for various types of ball joints with inch threads commonly used on control linkages in automotive, marine, and construction and industrial equipment applications. Inasmuch as the load carrying and wear capabilities of ball joints vary considerably with their design and fabrication, it is suggested that the manufacturers be consulted in regard to these features and for recommendations relating to application of the different types and styles available. The inclusion of dimensional data in this standard is not intended to imply that all the products described are stock production sizes. Consumers are requested to consult with manufacturers concerning availability of stock production parts.
Standard

STAINLESS STEEL, SAE 30302, SPRING WIRE AND SPRINGS

1994-06-01
HISTORICAL
J230_199406
This SAE Recommended Practice covers a high-strength corrosion-resisting steel wire, uniform in mechanical properties, intended for the manufacture of springs and wire forms. It also covers processing requirements of springs and forms fabricated from this wire.
Standard

Stainless Steel, SAE 30302, Spring Wire and Springs

2016-04-05
CURRENT
J230_201604
This SAE Recommended Practice covers a high-strength corrosion-resisting steel wire, uniform in mechanical properties, intended for the manufacture of springs and wire forms. It also covers processing requirements of springs and forms fabricated from this wire.
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.
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