Search Results

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

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

Test Method for Determining Window Fogging Resistance of Interior Trim Materials

1985-02-01

CURRENT

J275_198502

To simulate the formation of a condensate on the inside surface of clear glass when interior trim materials are exposed to an external source of radiant energy. To provide a method of measuring the effect of condensate formation on light transmittance.

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

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

Accelerated Exposure of Automotive Exterior Materials Using a Controlled Irradiance Air-Cooled Xenon-Arc Apparatus

2012-11-19

CURRENT

J2019_201211

This SAE Standard specifies the operating procedures for a controlled irradiance, air-cooled xenon-arc apparatus used for the accelerated exposure of various automotive exterior materials. The sample preparation, test durations, and performance evaluation procedures are covered in material specifications of the different automotive manufacturers.

Standard

Accelerated Exposure of Automotive Exterior Materials Using a Solar Fresnel Reflector Apparatus

2021-07-29

CURRENT

J1961_202107

This test method specifies the operating procedures for using a solar fresnel reflector apparatus for the accelerated exposure of various automotive materials.

Standard

Accelerated Exposure of Automotive Exterior Materials Using a Solar Fresnel Reflector Apparatus

2011-05-16

HISTORICAL

J1961_201105

This test method specifies the operating procedures for using a solar fresnel reflector apparatus for the accelerated exposure of various automotive materials.

Standard

Accelerated Exposure of Automotive Exterior Materials Using A Solar Fresnel Reflector Apparatus

2002-03-22

HISTORICAL

J1961_200203

This test method specifies the operating procedures for using a solar fresnel reflector apparatus for the accelerated exposure of various automotive materials.

Standard

ACCELERATED EXPOSURE OF AUTOMOTIVE EXTERIOR MATERIALS USING A SOLAR FRESNEL-REFLECTIVE APPARATUS

1988-12-01

HISTORICAL

J1961_198812

This test method specifies the operating procedures for using a solar fresnel reflector apparatus for the accelerated exposure of various automotive materials.

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

Glossary of Fiberboard Terminology

2009-04-20

HISTORICAL

J947_200904

This information report presents the terminology and definitions as used in the fiberboard industry.

Standard

Glossary of Fiberboard Terminology

2003-09-25

HISTORICAL

J947_200309

This information report presents the terminology and definitions as used in the fiberboard industry.

Standard

GLOSSARY OF FIBERBOARD TERMINOLOGY

1985-01-01

HISTORICAL

J947_198501

Standard

Glossary of Fiberboard Terminology

2023-06-28

CURRENT

J947_202306

This information report presents the terminology and definitions as used in the fiberboard industry.

Standard

Test Method for Determining Blocking Resistance and Associated Characteristics of Automotive Trim Materials

2002-07-26

HISTORICAL

J912_200207

This test method is designed to indicate the degree of surface tackiness, color transfer, loss of embossment, and surface marring when two trim materials are placed face to face under specific conditions of time, temperature, and pressure. These specific conditions are not dictated in this test procedure but will be found in the material standards which govern each type of trim material to be tested.