Search Results

Standard

Thermal Transport Properties Germane to Friction Materials and Brakes

2011-03-08

HISTORICAL

J2581_201103

This SAE Information report defines the thermal transport properties important in the assessment of heat management capability of brake lining, shoe, disc and drum materials. The report discusses thermal diffusivity, specific heat capacity, thermal conductivity and thermal expansion. Measurement techniques for the appropriate ASTM standards are identified. The thermal transport properties discussed are material sample properties, not the properties of entire components such as pad assemblies.

Standard

Thermal Transport Properties Germane to Friction Materials and Brakes

2017-02-02

CURRENT

J2581_201702

This SAE Information report defines the thermal transport properties important in the assessment of heat management capability of brake lining, shoe, disc and drum materials. The report discusses thermal diffusivity, specific heat capacity, thermal conductivity and thermal expansion. Measurement techniques for the appropriate ASTM standards are identified. The thermal transport properties discussed are material sample properties, not the properties of entire components such as pad assemblies.

Standard

Thermal Transport Properties Germane to Friction Materials and Brakes

2003-09-05

HISTORICAL

J2581_200309

This SAE Information report defines the thermal transport properties important in the assessment of heat management capability of brake lining, shoe, disc and drum materials. The report discusses thermal diffusivity, specific heat capacity, thermal conductivity and thermal expansion. Measurement techniques for the appropriate ASTM standards are identified. The thermal transport properties discussed are material sample properties, not the properties of entire components such as pad assemblies.

Standard

Test Procedures for Shear Strength of Automotive Brake Pads and Brake Lining Assemblies

2007-08-21

HISTORICAL

J840_200708

This SAE Recommended Practice covers equipment capabilities and the test procedure to quantify and qualify the shear strength between the friction material and backing plate or brake shoe for automotive applications. This SAE Recommended Practice is applicable to: bonded drum brake linings; integrally molded disc brake pads; disc brake pads and backing plate assemblies using mechanical retention systems (MRS); coupons from drum brake shoes or disc brake pad assemblies. The test and its results are also useful for short, semi-quantitative verification of the bonding and molding process. This Recommended Practice is applicable during product and process development, product verification and quality control. This Recommended Practice does not replicate or predict actual vehicle performance or part durability.

Standard

Test Procedures for Brake Shoe and Lining Bonds

1998-06-01

HISTORICAL

J840_199806

This SAE Recommended Practices covers equipment and procedures for qualification of bonded or integrally molded drum and disc shoe and lining assemblies. It also provides some short, semi-quantitative test procedures for checking bonding or molding process control.

Standard

TEST PROCEDURES FOR BRAKE SHOE AND LINING ADHESIVES AND BONDS

1962-11-01

HISTORICAL

J840_196211

This SAE Recommended Practice covers equipment and procedures for qualification and quality control tests of brake shoe and lining adhesives and bonds.

Standard

TEST PROCEDURES FOR BRAKE SHOE AND LINING ADHESIVES AND BONDS

1982-08-01

HISTORICAL

J840_198208

This SAE Recommended Practice covers equipment and procedures for qualification of bonded brake shoe and lining assemblies and for quality control on materials and processes used in their manufacture.

Standard

TEST PROCEDURES FOR BRAKE SHOE AND LINING ADHESIVES AND BONDS

1968-01-01

HISTORICAL

J840B_196801

This SAE Recommended Practice covers equipment and procedures for qualification of bonded brake shoe and lining assemblies and for quality control on materials and processes used in their manufacture.

Standard

TEST PROCEDURES FOR BRAKE SHOE AND LINING ADHESIVES AND BONDS

1971-05-01

HISTORICAL

J840C_197105

This SAE Recommended Practice covers equipment and procedures for qualification of bonded brake shoe and lining assemblies and for quality control on materials and processes used in their manufacture.

Standard

Specific Gravity of Friction Material

2017-02-02

CURRENT

J380_201702

Specific gravity is a nondestructive test used as a quality control check of the consistency of formulation and processing of brake lining. The specific gravity and the range of specific gravity are peculiar to each formulation and, therefore, the acceptable values or range must be established for each formulation by the manufacturer. Specific gravity alone shows nothing about a materials in use performance. The specific gravity of sintered metal powder friction materials, particularly those which have steel backing members, is usually determined somewhat differently. Reference ASTM B 376.

Standard

Specific Gravity of Friction Material

2009-08-26

HISTORICAL

J380_200908

Specific gravity is a nondestructive test used as a quality control check of the consistency of formulation and processing of brake lining. The specific gravity and the range of specific gravity are peculiar to each formulation and, therefore, the acceptable values or range must be established for each formulation by the manufacturer. Specific gravity alone shows nothing about a materials in use performance. The specific gravity of sintered metal powder friction materials, particularly those which have steel backing members, is usually determined somewhat differently. Reference ASTM B 376.

Standard

SPECIFIC GRAVITY OF BRAKE LINING

1993-02-01

HISTORICAL

J380_199302

Specific gravity is a nondestructive test used as a quality control check of the consistency of formulation and processing of brake lining. Specific gravity alone shows nothing about a lining's ability to develop friction or to resist fade when used as a friction element in brakes. Specific gravity varies with the formulation of the lining. The specific gravity of sintered metal powder linings, particularly those which have steel backing members, is usually determined somewhat differently. Reference ASTM B 376. The specific gravity and the range of specific gravity are peculiar to each formulation and, therefore, the acceptable values or range must be established for each formulation by the manufacturer.

Standard

SPECIFIC GRAVITY OF BRAKE LINING

1971-08-01

HISTORICAL

J380_197108

Specific gravity is a nondestructive test used as a quality control check of the consistency of formulation and processing of brake lining. Specific gravity alone shows nothing about a lining’s ability to develop friction or to resist fade when used as a friction element in brakes. Specific gravity varies with the formulation of the lining. The specific gravity of sintered metal powder linings, particularly those which have steel backing members, is usually determined somewhat differently. Reference ASTM B 376, ‘Density of Sintered Metal Friction Material’ (latest revision).1 The specific gravity and the range of specific gravity are peculiar to each formulation and, therefore, the acceptable values or range must be established for each formulation by the manufacturer.

Standard

Road Vehicles—Friction Materials—Elastic Properties Measurements

2009-01-20

HISTORICAL

J2725_200901

This SAE Standard specifies a method for testing and measuring elastic constants in friction materials by precise ultrasonic velocity measurements.

Standard

Road Vehicles - Friction Materials - Finished Brake Pad Normalized Elastic Constant of Friction Material

2019-11-20

CURRENT

J3175_201911

This SAE standard specifies a method for testing and measuring a normalized elastic constant of brake pad assemblies using ultrasound. This document applies to disc brake pad assemblies and its coupons or segments used in road vehicles.

Standard

Road Vehicles - Friction Materials - Elastic Properties Measurements

2023-04-21

CURRENT

J2725_202304

This SAE Standard specifies a method for testing and measuring elastic constants in friction materials by precise ultrasonic velocity measurements. Measurement methods are also described for measurement of the out-of-plane modulus as a function of pre-load as well as the measurement of engineering constants as a function of temperature. Finally, methods are formulated to produce all engineering constants as a function of pre-load and temperature.

Standard

Road Vehicles - Friction Materials - Elastic Properties Measurements

2017-09-29

HISTORICAL

J2725_201709

This SAE Standard specifies a method for testing and measuring elastic constants in friction materials by precise ultrasonic velocity measurements. Measurement methods are also described for measurement of the out-of-plane modulus as a function of pre-load as well as the measurement of engineering constants as a function of temperature. Finally, methods are formulated to produce all engineering constants as a function of pre-load and temperature.

Standard

Measurement of Copper and Other Elements in Brake Friction Materials

2015-05-07

HISTORICAL

J2975_201505

This procedure describes a method for generating, preparing and analyzing samples of new and unused brake friction materials for their chemical constituents.

Standard

Hardness of Brake Lining

2015-08-27

CURRENT

J2654_201508

Hardness measurements are used as a quality control check of the consistency of formulation and processing of brake linings. This hardness method is nondestructive. NOTE—This method is not a measure of friction level. The hardness and the range of hardness are characteristic of each formulation; therefore, the acceptable values and ranges must be established for each formulation and may be affected by processing. NOTE—The hardness of sintered powder metal lining is usually determined with Rockwell superficial hardness equipment. (See ASTM B 347)

Standard

Hardness of Brake Lining

2004-08-16

HISTORICAL

J2654_200408

Hardness measurements are used as a quality control check of the consistency of formulation and processing of brake linings. This hardness method is nondestructive. The hardness and the range of hardness are characteristic of each formulation; therefore, the acceptable values and ranges must be established for each formulation and may be affected by processing.