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Standard

BALL STUD AND SOCKET ASSEMBLY PERFORMANCE TEST PROCEDURE

1970-08-01

HISTORICAL

J193_197008

The purpose of this test procedure is to provide a uniform method of testing ball stud and socket assemblies to determine their performance characteristics. This procedure is an extension of the dimensional requirements for ball stud assemblies as used in integral assembly. Parts should meet all provisions of this procedure which are applicable to the end use of the socket assembly being tested. All tests, except ball stud yield load, may be run using complete integral assemblies representing the application.

Standard

BALL STUD AND SOCKET ASSEMBLY TEST PROCEDURE

1979-04-01

HISTORICAL

J193A_197904

The purpose of this test procedure is to provide a uniform method of testing ball stud and socket assemblies to determine their functional characteristics. This procedure is an extension of the dimensional recommendations for ball studs as used in integral socket assemblies. All tests, except ball stud yield, may be run using complete integral assemblies representing the application.

Standard

BALL STUD AND SOCKET ASSEMBLY TEST PROCEDURE

1979-04-01

HISTORICAL

J193_197904

The purpose of this test procedure is to provide a uniform method of testing ball stud and socket assemblies to determine their functional characteristics. This procedure is an extension of the dimensional recommendations for ball studs as used in integral socket assemblies. All tests, except ball stud yield, may be run using complete integral assemblies representing the application.

Standard

BALL STUD AND SOCKET ASSEMBLY TEST PROCEDURES

1987-02-01

HISTORICAL

J193_198702

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

BALL STUD AND SOCKET ASSEMBLY—TEST PROCEDURES

1996-06-19

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 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

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

ELASTOMERIC BUSHING "TRAC" APPLICATION CODE

1994-10-01

HISTORICAL

J1883_199410

The bushing "TRAC" code is intended to be a tool that will aid in the definition of the geometric environment for the test, or use, of an elastomeric bushing.

Standard

ELECTRIC HOURMETER SPECIFICATION

1983-03-01

HISTORICAL

J1378_198303

This SAE Recommended Practice establishes minimum requirements for electric hourmeters for general vehicular applications.

Standard

Elastomeric Bushing "TRAC" Application Code

2017-02-09

CURRENT

J1883_201702

The bushing "TRAC" code is intended to be a tool that will aid in the definition of the geometric environment for the test, or use, of an elastomeric bushing.

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

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

Fuel and Oil Hoses

1998-06-01

HISTORICAL

J30_199806

This SAE Standard covers fuel and oil hose, coupled and uncoupled, for use with gasoline, oil, diesel fuel, lubrication oil, or the vapor present in either the fuel system or in the crankcase of internal combustion engines in mobile, stationary, and marine applications. Sections 7 and 11 cover hose intended to meet the demands of fuel injection systems. Sections 10 and 11 cover hose intended to meet low fuel permeation requirements. Section 3 covers Coupled and Uncoupled Synthetic Rubber Tube and Cover (SAE 30R2). Section 4 covers Lightweight Braided Reinforced Lacquer, Cement, or Rubber Covered Hose (SAE 30R3). Section 5 covers Wire Inserted Synthetic Rubber Tube and Cover (SAE 30R5). Section 6 covers Low-Pressure Coupled and Uncoupled Synthetic Rubber Tube and Cover (SAE 30R6), (SAE 30R7), (SAE 30R8). Section 7 covers Fuel Injection Hose Medium-Pressure Coupled and Uncoupled Synthetic Rubber Tube and Cover (SAE 30R9).

Standard

Laboratory Corrosion/Fatigue Testing of Vehicle Suspension Coil Springs

2007-06-15

HISTORICAL

J2800_200706

This lab test procedure should be used when evaluating the combined corrosion and fatigue performance for a particular coating system, substrate, process and design. The test is intended to provide an A to B comparison of a proposed coil spring design versus an existing field validated coil spring when subjected to the combined effects of corrosion and fatigue. The corrosion mechanisms covered by this test include general, cosmetic and pitting corrosion. Fatigue testing covers the maximum design stress and/or stress range of the coil spring design (typically defined as excursion from jounce to rebound positions in a vehicle). The effects of gravel and heat are simulated by pre-conditioning the springs prior to fatigue testing. Time dependant corrosion mechanisms such as stress corrosion cracking are not addressed with this test.

Standard

Laboratory Corrosion/Fatigue Testing of Vehicle Suspension Coil Springs

2016-04-01

CURRENT

J2800_201604

This lab test procedure should be used when evaluating the combined corrosion and fatigue performance for a particular coating system, substrate, process and design. The test is intended to provide an A to B comparison of a proposed coil spring design versus an existing field validated coil spring when subjected to the combined effects of corrosion and fatigue. The corrosion mechanisms covered by this test include general, cosmetic and pitting corrosion. Fatigue testing covers the maximum design stress and/or stress range of the coil spring design (typically defined as excursion from jounce to rebound positions in a vehicle). The effects of gravel and heat are simulated by pre-conditioning the springs prior to fatigue testing. Time dependant corrosion mechanisms such as stress corrosion cracking are not addressed with this test.

Standard

METHOD FOR EVALUATING MATERIAL SEPARATION IN AUTOMOTIVE SEALERS UNDER PRESSURE IN STATIC CONDITIONS

1996-03-01

HISTORICAL

J1864_199603

This SAE Recommended Practice sets forth a method for measuring pressure-induced separation in automotive sealers and determining the likelihood of equipment failure due to this separation, also known as "caking."

Standard

METHOD OF VISCOSITY TEST FOR AUTOMOTIVE TYPE ADHESIVES, SEALERS, AND DEADENERS

1995-08-01

HISTORICAL

J1524_199508

This SAE Recommended Practice contains a series of test methods for use in measuring the viscosity of automotive-type adhesives, sealers, and deadeners. The test methods which are contained in this document are as follows: 1.1 Brookfield® Method 1.2 Castor-Severs Rheometer or Pressure Flowmeter 1.3 Penetrometer 1.4 Capillary Rheometer 1.5 Plate Rheometers

Standard

Method for Evaluating Material Separation in Automotive Sealers Under Pressure in Static Conditions

2021-01-07

CURRENT

J1864_202101

This SAE Recommended Practice sets forth a method for measuring pressure-induced separation in automotive sealers and determining the likelihood of equipment failure due to this separation, also known as "caking."

Standard

Method for Evaluating the Flow Properties of Pumpable Sealers

2021-01-07

CURRENT

J2025_202101

This SAE Recommended Practice sets forth a method for evaluating the flow properties of automotive sealers that have been dispensed via a high pressure automatic system.

Standard

Method for the Determination of Expansion and Water Absorption in Automotive Sealers

2002-01-25

HISTORICAL

J1918_200201

This SAE Recommended Practice sets forth methods for determining total expansion gravimetrically and volumetrically, calculating vertical expansion and measuring the water absorption of cut and uncut sealer beads.

Standard

Method for the Determination of Expansion and Water Absorption in Automotive Sealers

2021-01-07

CURRENT

J1918_202101

This SAE Recommended Practice sets forth methods for determining total expansion gravimetrically and volumetrically, calculating vertical expansion and measuring the water absorption of cut and uncut sealer beads.