Search Results

Standard

BODY CORROSION—A COMPREHENSIVE INTRODUCTION

1993-11-01

HISTORICAL

J1617_199311

The mechanism of automotive body corrosion is scientific, based on established laws of chemistry and physics. Yet there are many opinions related to the cause of body corrosion, not always based on scientific axioms. The purpose of this SAE Information Report is to present a basic understanding of the types of body corrosion, the factors that contribute to body corrosion, the testing procedures, evaluation of corrosion performance, and glossary of related terms.

Standard

Ball Joints

2012-10-15

CURRENT

J490_201210

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

Body Corrosion - A Comprehensive Introduction

2016-04-05

CURRENT

J1617_201604

The mechanism of automotive body corrosion is scientific, based on established laws of chemistry and physics. Yet there are many opinions related to the cause of body corrosion, not always based on scientific axioms. The purpose of this SAE Information Report is to present a basic understanding of the types of body corrosion, the factors that contribute to body corrosion, the testing procedures, evaluation of corrosion performance, and glossary of related terms.

Standard

COACH JOINT FRACTURE TEST

1993-11-01

HISTORICAL

J1863_199311

This SAE Recommended Practice defines a procedure for determining the cleavage strength of an adhesive used for bonding automotive oily metal substrates.

Standard

CROSS PEEL TEST FOR AUTOMOTIVE TYPE ADHESIVES FOR FIBER-REINFORCED PLASTIC (FRP) BONDING

1995-04-01

HISTORICAL

J1553_199504

This SAE Recommended Practice describes a cross peel test method for use in measuring the bonding characteristics of automotive-type adhesives for joining fiber-reinforced plastics to themselves and to metals.

Standard

Coach Joint Fracture Test

2021-01-07

CURRENT

J1863_202101

This SAE Recommended Practice defines a procedure for determining the cleavage strength of an adhesive used for bonding automotive oily metal substrates.

Standard

Cross Peel Test for Automotive Type Adhesives for Fiber-Reinforced Plastic (FRP) Bonding

2021-01-07

CURRENT

J1553_202101

This SAE Recommended Practice describes a cross peel test method for use in measuring the bonding characteristics of automotive-type adhesives for joining fiber-reinforced plastics to themselves and to metals.

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

ELECTROCOAT COMPATIBILITIES OF AUTOMOTIVE SEALERS

1988-10-01

HISTORICAL

J1969_198810

This SAE Recommended Practice sets forth a method for determining the compatibility of automotive sealers with cathodic electrocoat primer.

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

Electrocoat Compatibilities of Automotive Sealers

2021-01-07

CURRENT

J1969_202101

This SAE Recommended Practice sets forth a method for determining the compatibility of automotive sealers with cathodic electrocoat primer.

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

Helical Springs: Specification Check Lists

2004-10-11

HISTORICAL

J1122_200410

The following SAE Recommended Practice furnishes sample forms for helical compression, extension and torsion springs to provide a uniform method for specifying design information. It is not necessary to fill in all the data, but sufficient information must be supplied to fully describe the part and to satisfy the requirements of its application. For detailed information, see “Design and Application of Helical and Spiral Springs - SAE HS 795”, also “Helical Compression and Extension Spring Terminology - SAE J1121”. Both of these documents use SI (metric) Units in accordance with the provisions of SAE TSB 003, as does SAE J1122. Here, however, the U.S. Customary Units (in, lb, psi) have been added in parentheses after each SI Unit for the convenience of the user who must furnish specifications on a project where all requirements are listed in non-metric terms.

Standard

Helical Springs: Specification Check Lists

2016-08-02

CURRENT

J1122_201608

The following SAE Recommended Practice furnishes sample forms for helical compression, extension and torsion springs to provide a uniform method for specifying design information. It is not necessary to fill in all the data, but sufficient information must be supplied to fully describe the part and to satisfy the requirements of its application. For detailed information, see “Design and Application of Helical and Spiral Springs - SAE HS 795”, also “Helical Compression and Extension Spring Terminology - SAE J1121”. Both of these documents use SI (metric) Units in accordance with the provisions of SAE TSB 003, as does SAE J1122. Here, however, the U.S. Customary Units (in, lb, psi) have been added in parentheses after each SI Unit for the convenience of the user who must furnish specifications on a project where all requirements are listed in non-metric terms.

Standard

INDUCTION CURE TEST FOR METAL BONDING ADHESIVES

1987-05-01

HISTORICAL

J1851_198705

This SAE Recommended Practice defines a procedure for determining the adhesion strength characteristics of heat-cured metal bonding adhesives subjected to induction heating.

Standard

Induction Cure Test for Metal Bonding Adhesives

2021-01-07

CURRENT

J1851_202101

This SAE Recommended Practice defines a procedure for determining the adhesion strength characteristics of heat-cured metal bonding adhesives subjected to induction heating.

Standard

Lap Shear Test for Automotive-Type Adhesives for Fiber Reinforced Plastic (FRP) Bonding

2021-01-07

CURRENT

J1525_202101

This SAE Recommended Practice describes a lap shear test method for use in measuring the bonding characteristics of automotive-type adhesives for joining fiber reinforced plastics (FRPs) to themselves and to metals.

Standard

Lap Shear Test for Automotive-Type Adhesives for Fiber Reinforced Plastic (FRP) Bonding

2017-06-16

HISTORICAL

J1525_201706

This SAE Recommended Practice describes a lap shear test method for use in measuring the bonding characteristics of automotive-type adhesives for joining fiber reinforced plastics (FRPs) to themselves and to metals.