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Standard

ACCELERATED EXPOSURE OF AUTOMOTIVE EXTERIOR MATERIALS USING A CONTROLLED IRRADIANCE AIR-COOLED XENON-ARC APPARATUS

1994-01-01

HISTORICAL

J2019_199401

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.

Standard

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

2008-01-11

CURRENT

J1960_200801

This test method specifies the operating procedures for a controlled irradiance, water-cooled xenon arc apparatus used for the accelerated exposure of various automotive exterior materials. This standard is limited to the models of xenon arc test apparatus specified in the Section on Apparatus. All other models of xenon arc test apparatus must use SAE J2527 to perform the test conditions specified in SAE J1960. SAE J2527 is the performance standard based on the test parameters of SAE J1960. Use of xenon arc test apparatus to perform SAE J2527 must be agreed upon by contractual parties.

Standard

Accelerated Exposure of Automotive Interior Trim Components Using a Controlled Irradiance Water Cooled Xenon-Arc Apparatus

2008-01-11

CURRENT

J1885_200801

This test method specifies the operating procedures for a controlled irradiance, water cooled xenon-arc apparatus used for the accelerated exposure of various automotive interior trim components. Test durations, as well as any exceptions to the sample preparation and performance evaluation procedures contained in this document, are covered in material specifications of the different automotive manufacturers. This standard is limited to the models of xenon arc test apparatus specified in the Section on Equipment. All other models of xenon arc test apparatus must use SAE J2412 to perform the test conditions specified in SAE J1885. SAE J2412 is the performance standard based on the test parameters of SAE J1885. Use of xenon arc test apparatus to perform SAE J2412 must be agreed upon by contractual parties.

Standard

Design Guidelines for Fiberboard Materials

2004-08-04

HISTORICAL

J1774_200408

This document provides information on the various fiberboard products, which are available for automotive application. It is intended to give engineers and designers a better understanding of product usage, characteristics, properties and industry terminology. The following sections cover these topics: 2. General Product Information 3. Design Characteristics 4. Physical/Mechanical Properties 5. Fiberboard Definitions In sections 2, 3 and 4 the fiberboard products are categorized. These sections give an overview of product types, with general information about characteristics and properties. In cases where product categories encompass more than one material or material grade, ranges were established to cover all of the products in that category. The individual companies that supply fiberboard products should be consulted for specific information about a particular product or application.

Standard

Design Guidelines for Fiberboard Materials

2010-06-21

HISTORICAL

J1774_201006

This document provides information on the various fiberboard products, which are available for automotive application. It is intended to give engineers and designers a better understanding of product usage, characteristics, properties and industry terminology. The following sections cover these topics: 2 General Product Information 3 Design Characteristics 4 Physical/Mechanical Properties 5 Fiberboard Definitions In sections 2, 3 and 4 the fiberboard products are categorized. These sections give an overview of product types, with general information about characteristics and properties. In cases where product categories encompass more than one material or material grade, ranges were established to cover all of the products in that category. The individual companies that supply fiberboard products should be consulted for specific information about a particular product or application.

Standard

Design Guidelines for Fiberboard Materials

2019-09-25

CURRENT

J1774_201909

This document provides information on the various fiberboard products, which are available for automotive application. It is intended to give engineers and designers a better understanding of product usage, characteristics, properties and industry terminology. The following sections cover these topics: 2 General Product Information 3 Design Characteristics 4 Physical/Mechanical Properties 5 Fiberboard Definitions In sections 2, 3 and 4 the fiberboard products are categorized. These sections give an overview of product types, with general information about characteristics and properties. In cases where product categories encompass more than one material or material grade, ranges were established to cover all of the products in that category. The individual companies that supply fiberboard products should be consulted for specific information about a particular product or application.

Standard

FELTS—WOOL AND PART WOOL

1994-05-05

HISTORICAL

J314_199405

This SAE Standard covers types and qualities of felts required for general automotive uses. It was developed with the cooperation of the Standardization Committee of the Felt Association, Inc., and in accordance with the ASTM tests indicated in the document. The commercial trade designations of the more commonly used grades of automotive felts are given along with complete specifications and tolerances for thickness, mass, wool content, chemical and physical requirements, color, and width. General information, recommended uses, etc., are published in Appendix A as a guide in the selection of felts for particular uses, but the requirements for each application should be taken into consideration in making final selections.

Standard

FIBERBOARD CREASE BENDING TEST

1982-01-01

HISTORICAL

J119_198201

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

1987-02-01

HISTORICAL

J119_198702

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

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

Fiberboard Crease Bending Test

2005-07-25

HISTORICAL

J119_200507

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 Test Procedure

2010-03-02

HISTORICAL

J315_201003

This SAE Standard provides test methods for determining the critical characteristics of basic or finished fiberboard products. Where applicable, methods of test developed by SAE and ASTM have been referenced.

Standard

Fiberboard Test Procedure

2022-08-26

CURRENT

J315_202208

This SAE Standard provides test methods for determining the critical characteristics of basic or finished fiberboard products. Where applicable, methods of test developed by SAE and ASTM have been referenced.

Standard

Glossary of Fiberboard Terminology

2014-01-23

HISTORICAL

J947_201401

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

Standard

Instrumental Color Difference Measurements for Colorfastness of Automotive Interior Trim Materials

2014-01-06

HISTORICAL

J1767_201401

The practice described applies to textile and flexible plastic parts and materials used in automotive vehicles. Special care should be taken when high pile carpet samples are being evaluated.

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 Scuffing of Trim Materials

2020-09-18

CURRENT

J365_202009

This test can be used to determine the resistance to scuffing of test specimens such as fiberboards, fabrics, vinyl-coated fabrics, leathers, and similar trim materials.