Search Results

Standard

FLAMMABILITY OF AUTOMOTIVE INTERIOR MATERIALS - HORIZONTAL TEST METHOD

1978-05-01

HISTORICAL

J369A_197805

This method of test is intended for use in the measurement of the burning rate of automotive interior materials as specified by the applicable standard.

Standard

FLAMMABILITY OF AUTOMOTIVE INTERIOR TRIM MATERIALS—HORIZONTAL TEST METHOD

1969-03-01

HISTORICAL

J369_196903

This method of test is intended for use in the measurement of the burning rate of materials used for automotive interior trim which includes, but is not limited to, the components used in items such as seats, arm rests, visors, crash pads, door and quarter panels, headliners, floor coverings, occupant restraints, headrests, plastic trim components, and any other items that are used in automotive interiors.

Standard

FLAMMABILITY OF AUTOMOTIVE INTERIOR TRIM MATERIALS—HORIZONTAL TEST METHOD

1970-02-01

HISTORICAL

J369_197002

This method of test is intended for use in the measurement of the burning rate of materials used for automotive interior trim which includes, but is not limited to, the components used in items such as seats, arm rests, visors, crash pads, door and quarter panels, headliners, floor coverings, occupant restraints, headrests, plastic trim components, and any other items that are used in automotive interiors.

Standard

FLAMMABILITY OF POLYMERIC INTERIOR MATERIALS—HORIZONTAL TEST METHOD

1994-01-01

HISTORICAL

J369_199401

This SAE Standard pertains to automotive vehicles and off-road, self-propelled work machines used in construction, general purpose industrial, agriculture, forestry, and specialized mining machinery.

Standard

Fiberboard Crease Bending Test

2019-10-31

CURRENT

J119_201910

This test method is designed to determine the suitability of a painted or unpainted fiberboard for application involving creasing and bending. The specific purpose of the test is to determine whether a given material, properly creased, can be bent along the impressed crease without objectionable failure on the surface of the bend.

Standard

Fiberboard Crease Bending Test

2010-05-10

HISTORICAL

J119_201005

This test method is designed to determine the suitability of a painted or unpainted fiberboard for application involving creasing and bending. The specific purpose of the test is to determine whether a given material, properly creased, can be bent along the impressed crease without objectionable failure on the surface of the bend.

Standard

Load Deflection Testing of Urethane Foams for Automotive Seating

2007-08-13

HISTORICAL

J815_200708

Traditionally, cellular foam products have been checked for load deflection by determining the load required to cause a 25% deflection. In automotive seating, on the other hand, the load deflection is checked by determining the thickness under constant force conditions to (a) indicate the initial softness of the seat cushion, (b) measure how thick the seat cushion is under the average passenger load (a measurement of padding left for “ride” and seated height), and (c) determine a value to indicate resiliency. In this method these measurements are made by determining the thickness of the seat cushion under fixed loads of 4.5 N, 110 N, and 220 N with a 323 cm2 circular indentor foot.

Standard

Load Deflection Testing of Urethane Foams for Automotive Seating

2002-10-30

HISTORICAL

J815_200210

Traditionally, cellular foam products have been checked for load deflection by determining the load required to cause a 25% deflection. In automotive seating, on the other hand, the load deflection is checked by determining the thickness under constant force conditions to (a) indicate the initial softness of the seat cushion, (b) measure how thick the seat cushion is under the average passenger load (a measurement of padding left for “ride” and seated height), and (c) determine a value to indicate resiliency. In this method these measurements are made by determining the thickness of the seat cushion under fixed loads of 4.5 N, 110 N, and 220 N with a 323 cm 2 circular indentor foot.

Standard

Load Deflection Testing of Urethane Foams for Automotive Seating

2001-12-10

HISTORICAL

J815_200112

Traditionally, cellular foam products have been checked for load deflection by determining the load required to cause a 25% deflection. In automotive seating, on the other hand, the load deflection is checked by determining the thickness under constant force conditions to (a) indicate the initial softness of the seat cushion, (b) measure how thick the seat cushion is under the average passenger load (a measurement of padding left for “ride” and seated height), and (c) determine a value to indicate resiliency. In this method these measurements are made by determining the thickness of the seat cushion under fixed loads of 4.5 N, 110 N, and 220 N with a 323 cm 2 circular indentor foot.

Standard

Method of Testing Resistance to Crocking of Organic Trim Materials

2012-08-24

HISTORICAL

J861_201208

This test can be used to determine the resistance to crocking (color rub-off) of organic trim materials such as fabrics, vinyl coated fabrics, leather, coated fiberboard and carpet. This method is similar to AATCC Method 8 –Colorfastness to Crocking.

Standard

Method of Testing Resistance to Crocking of Organic Trim Materials

2022-04-25

CURRENT

J861_202204

This test can be used to determine the resistance to crocking (color rub-off) of organic trim materials such as fabrics, vinyl coated fabrics, leather, coated fiberboard and carpet. This method is similar to AATCC Method 8 –Colorfastness to Crocking.

Standard

NONMETALLIC TRIM MATERIALS--TEST METHOD FOR DETERMINING THE STAINING RESISTANCE TO HYDROGEN SULFIDE GAS

1985-12-01

HISTORICAL

J322_198512

This procedure is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

NONMETALLIC TRIM MATERIALS—TEST METHOD FOR DETERMINING THE STAINING RESISTANCE TO HYDROGEN SULFIDE GAS

1996-01-01

HISTORICAL

J322_199601

This SAE Recommended Practice is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

Nonmetallic Trim Materials—Test Method for Determining the Staining Resistance to Hydrogen Sulfide Gas

2003-12-12

HISTORICAL

J322_200312

This SAE Recommended Practice is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

Nonmetallic Trim Materials—Test Method for Determining the Staining Resistance to Hydrogen Sulfide Gas

2009-07-20

HISTORICAL

J322_200907

This SAE Recommended Practice is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

Nonmetallic Trim Materials—Test Method for Determining the Staining Resistance to Hydrogen Sulfide Gas

2014-06-03

HISTORICAL

J322_201406

This SAE Recommended Practice is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

Nonmetallic Trim Materials—Test Method for Determining the Staining Resistance to Hydrogen Sulfide Gas

2022-09-14

CURRENT

J322_202209

This SAE Recommended Practice is designed to reveal discoloration which may occur when nonmetallic materials used for trimming automobiles are exposed for a limited time to an atmosphere containing hydrogen sulfide.

Standard

Protocol To Verify Performance of New Xenon Arc Test Apparatus

2003-12-22

HISTORICAL

J2413_200312

This Recommended Practice is for use by contractual parties to verify new xenon arc test apparatus ability to perform SAE J1885, J1960, J2412, J2527, or other as specified.

Standard

Protocol to Verify Performance of New Xenon Arc Test Apparatus

2016-08-02

CURRENT

J2413_201608

This Recommended Practice is for use by contractual parties to verify new xenon arc test apparatus ability to perform SAE J1885, J1960, J2412, J2527, or other as specified.

Standard

Standard Classification System for Fiberboards

2014-06-04

HISTORICAL

J1323_201406

This SAE Standard provides a means for specifying or describing the pertinent properties of fiberboards for automotive applications. The materials normally specified by this standard are defined in SAE J947. The test methods commonly used for fiberboards are defined in SAE J315.