Search Results

Standard

Aero-Capable Ground Vehicle Impact Testing

2022-03-08

WIP

J3276

This document provides recommended practices for impact testing of ground vehicle that are also aero-capable. The scope characterizes recommended impact testing taking into account the unique design characteristics involved in aero-capable ground vehicle

Standard

BARRIER COLLISION TESTS

1969-10-01

HISTORICAL

J850A_196910

Standard

DOLLY ROLLOVER RECOMMENDED TEST PROCEDURE

1993-04-01

HISTORICAL

J2114_199304

This SAE Recommended Practice describes the test procedure for conducting a rollover test using a dolly fixture designed to laterally trip a vehicle into a roll. Its purpose is to establish a recommended test procedure which will standardize the procedure between different test facilities. A description of the test procedure, test instrumentation, photographic/video coverage, and the rollover fixture is included.

Standard

Dolly Rollover Recommended Test Procedure

1999-10-01

HISTORICAL

J2114_199910

This SAE Recommended Practice describes the test procedure for conducting a rollover test using a dolly fixture designed to laterally trip a vehicle into a roll. Its purpose is to establish a recommended test procedure which will standardize the procedure between different test facilities. A description of the test procedure, test instrumentation, photographic/video coverage, and the rollover fixture is included.

Standard

Dolly Rollover Recommended Test Procedure

2011-02-21

CURRENT

J2114_201102

This SAE Recommended Practice describes the test procedure for conducting a rollover test using a dolly fixture designed to laterally trip a vehicle into a roll. Its purpose is to establish a recommended test procedure which will standardize the procedure between different test facilities. A description of the test procedure, test instrumentation, photographic/video coverage, and the rollover fixture is included.

Standard

Dynamic Simulation Sled Testing

1999-03-01

HISTORICAL

J2481_199903

Dynamic simulation sled testing can represent various automotive collision conditions. Deceleration conditions during sled testing are readily reproducible and can be tuned to simulate collision events that occur during vehicle impacts with a fixed barrier or vehicle. Sled tests are conducted on automotive vehicle bodies or other structures to obtain valuable information. This information can be used to evaluate the dynamic performance of, but not limited to, vehicle restraint systems, vehicle seating systems, and body closure systems.

Standard

Dynamic Simulation Sled Testing

2009-11-09

HISTORICAL

J2481_200911

Dynamic simulation sled testing can represent various automotive collision conditions. Deceleration conditions during sled testing are readily reproducible and can be tuned to simulate collision events that occur during vehicle impacts with a fixed barrier or vehicle. Sled tests are conducted on automotive vehicle bodies or other structures to obtain valuable information. This information can be used to evaluate the dynamic performance of, but not limited to, vehicle restraint systems, vehicle seating systems, and body closure systems.

Standard

Dynamic Simulation Sled Testing

2013-10-29

HISTORICAL

J2481_201310

Dynamic simulation sled testing can represent various automotive collision conditions. Acceleration conditions during sled testing are readily reproducible and can be tuned to simulate collision events that occur during vehicle impacts with a fixed barrier or vehicle. Sled tests are conducted on automotive vehicle bodies or other structures to obtain valuable information. This information can be used to evaluate the dynamic performance of, but not limited to, vehicle restraint systems, vehicle seating systems, and body closure systems.

Standard

Dynamic Simulation Sled Testing

2022-04-25

CURRENT

J2481_202204

Dynamic simulation sled testing can represent various automotive collision conditions. Acceleration conditions during sled testing are readily reproducible and can be tuned to simulate collision events that occur during vehicle impacts with a fixed barrier or vehicle. Sled tests are conducted on automotive vehicle bodies or other structures to obtain valuable information. This information can be used to evaluate the dynamic performance of, but not limited to, vehicle restraint systems, vehicle seating systems, and body closure systems.

Standard

Electric Vehicle (E-Vehicle) Crash Test Lab Safety Guidelines

2022-01-20

CURRENT

J3040_202201

The special risks associated with conducting crash tests on E-vehicles can be divided into two main categories: (1) thermal activity inside the battery (resulting from electrical or mechanical abuse) may lead to energetic emission of harmful and/or flammable gases, thermal runaway, and potentially fire; and (2) the risk of electrocution. Procedures to ensure protection from all types of risk must be integrated into the entire crash test process. This SAE Information Report is intended to provide guidance in this endeavor using current best practices at the time of this publication. As both battery technology and battery management system technology are in a phase of expansion, the contents of this report must then be gaged against current technology of the time and updated periodically to retain its applicability and usefulness.

Standard

FIXED RIGID BARRIER COLLISION TESTS

1996-03-01

HISTORICAL

J850_199603

Standard

FIXED RIGID BARRIER COLLISION TESTS

1988-11-01

HISTORICAL

J850_198811

Barrier collisions represent the most severe type of automotive impacts. Deceleration conditions during barrier collisions are more readily reproducible than those occurring during other types of impacts. Barrier collision tests are conducted on automotive vehicles to obtain information of value in reducing occupant injuries and in evaluating structural integrity. The purpose of this SAE Recommended Practice is to establish sufficient standardization of barrier collision methods that results of tests conducted at different facilities may be compared.

Standard

Fixed Rigid Barrier Collision Tests

2009-11-09

HISTORICAL

J850_200911

Fixed rigid barrier collisions can represent severe automotive impacts. Barrier collision tests are conducted on automotive vehicles to obtain information of value in reducing occupant injuries and in evaluating structural integrity. The purpose of this SAE Recommended Practice is to establish sufficient standardization of barrier collision methods so that results of similar tests conducted at different facilities can be compared. The barrier device may be of almost any configuration, such as flat, round, offset, etc.

Standard

Fixed Rigid Barrier Collision Tests

2015-04-09

CURRENT

J850_201504

Fixed rigid barrier collisions can represent severe automotive impacts. Barrier collision tests are conducted on automotive vehicles to obtain information of value in reducing occupant injuries and in evaluating structural integrity. The purpose of this SAE Recommended Practice is to establish sufficient standardization of barrier collision methods so that results of similar tests conducted at different facilities can be compared. The barrier device may be of almost any configuration, such as flat, round, offset, etc.

Standard

Fixed Rigid Barrier Collision Tests

2000-09-07

HISTORICAL

J850_200009

Fixed rigid barrier collisions can represent severe automotive impacts. Deceleration conditions during fixed rigid barrier collisions are more readily reproducible than those occurring during impacts with yielding barriers. Barrier collision tests are conducted on automotive vehicles to obtain information of value in reducing occupant injuries and in evaluating structural integrity. The purpose of this SAE Recommended Practice is to establish sufficient standardization of barrier collision methods so that results of similar tests conducted at different facilities can be compared. The barrier device may be of almost any configuration, such as flat, round, offset, etc.

Standard

Impact Testing of Automated Vehicles

2021-05-11

WIP

J3255

Dynamic impact test represent various automotive collision conditions. The impact testing recommended practice is intended to recognize the capabilities of autonomous vehicles while at the same time recognizing the vehicle fleet into which they are introduced will consist of non-autonomous vehicles for a considerable period of time. The scope of the document is to cover the range of impact conditions expected taking into account the capabilities of the vehicle and the impact testing technology now available for performance evaluation including virtual and physical testing.

Standard

Linear Impact Procedure for Occupant Ejection Protection

2021-10-08

CURRENT

J2937_202110

The objective of this document is to enhance the test procedure that is used for ejection mitigation testing per the NHTSA guidelines as mentioned in the FMVSS226 Final Rule document (NHTSA Docket No. NHTSA-2011-0004). The countermeasure for occupant ejection testing is to be tested with an 18kg mass on a guided linear impactor using the featureless headform specifically designed for ejection mitigation testing. SAE does not endorse any particular countermeasure for ejection mitigation testing. However, the document reflects guidelines that should be followed to maintain consistency in the test results. Examples of currently used countermeasures include the Inflatable Curtain airbags and Laminated Glass.

Standard

Linear Impactor Calibration Procedure

2016-06-17

HISTORICAL

J3095_201606

This recommended practice provides a procedure for measuring quantitatively the physical characteristics of linear impactors that are believed to effect impact test accuracy, repeatability, and reproducibility. Suggested values and tolerance are also provided for specific applications of linear impactor testing (i.e. Ejection Mitigation tests, Head form Impact tests, Body Block tests). Two functional groups of linear impactors are considered, those whose function is related primarily to displacement and those related to measuring acceleration or force.

Standard

MOVING BARRIER COLLISION TESTS

1966-11-01

HISTORICAL

J972_196611

Collision tests are conducted on automotive vehicles to obtain information of value in evaluating structural integrity and in reducing occupant injuries. Deceleration conditions during a moving barrier impact are more severe at a given speed than those produced by using a crushable vehicle but are more readily reproducible than those occurring during impacts of two vehicles. The purpose of this SAE Recommended Practice is to establish sufficient standardization of moving barriers and moving barrier collision methods so that results of tests conducted at different facilities may be compared.

Standard

MOVING BARRIER COLLISION TESTS

1973-03-01

HISTORICAL

J972_197303