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Standard

AUTOMOTIVE GRADE COAXIAL CABLE PERFORMANCE SPECIFICATION

2022-03-15

CURRENT

USCAR29-1

This document specifies dimensional, functional and visual requirements for Automotive grade coaxial cable. This material will be designated AG for general-purpose automotive applications or AG LL for low loss applications. It is the responsibility of the user of this cable to verify the suitability of the selected product (based on dimensional, mechanical, electrical and environmental requirements) for its intended application. It is the responsibility of the supplier to retain and maintain records as evidence of compliance to the requirements detailed in this standard.

Standard

AVOIDANCE OF HYDROGEN EMBRITTLEMENT OF STEEL

2008-06-01

HISTORICAL

USCAR5-3

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel and define the relief procedures required to minimize the risk of hydrogen embrittlement. It is intended to control the process.

Standard

AVOIDANCE OF HYDROGEN EMBRITTLEMENT OF STEEL

2012-07-01

HISTORICAL

USCAR5-4

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel and define the relief procedures required to minimize the risk of hydrogen embrittlement. It is intended to control the process.

Standard

AVOIDANCE OF HYDROGEN EMBRITTLEMENT OF STEEL

1997-11-01

HISTORICAL

USCAR5

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel and define the relief procedures required to minimize the risk of hydrogen embrittlement. It is intended to control the process.

Standard

AVOIDANCE OF HYDROGEN EMBRITTLEMENT OF STEEL FASTENERS AND OTHER HARDENED OR SPRING STEEL PARTS FROM SURFACE COATING PROCESSES

2019-02-27

CURRENT

USCAR5-5

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel and define the relief procedures required to minimize the risk of hydrogen embrittlement. It is intended to control the process.

Standard

Automotive Grade Coaxial Cable Performance Specification

2006-01-02

HISTORICAL

USCAR29

This document specifies dimensional, functional and visual requirements for Automotive grade coaxial cable. This material will be designated AG for general-purpose automotive applications or AG LL for low loss applications. It is the responsibility of the user of this cable to verify the suitability of the selected product (based on dimensional, mechanical, electrical and environmental requirements) for its intended application. It is the responsibility of the supplier to retain and maintain records as evidence of compliance to the requirements detailed in this standard.

Standard

Avoidance of Hydrogen Embrittlement of Steel

2002-08-22

HISTORICAL

USCAR5-1

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel. It also defines the relief procedures required to minimize the risk of hydrogen embrittlement. SAE/USCAR-5 is intended to control the process.

Standard

Avoidance of Hydrogen Embrittlement of Steel

2007-03-01

HISTORICAL

USCAR5-2

This standard outlines the conditions that enhance the risk of hydrogen embrittlement of steel and define the relief procedures required to minimize the risk of hydrogen embrittlement. It is intended to control the process. 1.1 Hydrogen embrittlement of steel, which can cause brittle fractures under stress, occurs as a result of the absorption of hydrogen during cleaning, phosphate coating and plating processes. The susceptibility to hydrogen embrittlement increases with increasing stress (internal or externally applied stress) and increasing material strength. 1.2 Hardness readings in this specification are in Vickers scale. SAE J417 should be referred to for conversion to other scales. NOTE 1: All references to temperatures relate to part core temperature and not the indicated oven air temperature. Statistical data of verifications in temperature at the center of the oven load and oven temperature shall be established to develop the oven profile.

Standard

COAXIAL CABLE CONNECTOR INTERFACE – SQUARE OUTER CONDUCTOR

2002-02-22

HISTORICAL

USCAR19

This radio frequency (RF) connector interface specification is suited for unsealed automobile applications up to 2 GHz. Dimensional requirements are specified in this document to ensure interchangeability. This RF connector interface specification is intended for in-line, board mount, device mount, straight or angled applications. Performance requirements are specified in SAE/USCAR-2, and in SAE/USCAR-17.

Standard

COAXIAL CABLE CONNECTOR INTERFACE – SQUARE OUTER CONDUCTOR

2003-03-10

HISTORICAL

USCAR19-1

This radio frequency (RF) connector interface specification is suited for unsealed automobile applications up to 2 GHz. Dimensional requirements are specified in this document to ensure interchangeability. This RF connector interface specification is intended for in-line, board mount, device mount, straight or angled applications. Performance requirements are specified in SAE/USCAR-2, and in SAE/USCAR-17.

Standard

DEEMBRITTLEMENT VERIFICATION TEST

1998-12-30

HISTORICAL

USCAR7

This standard outlines test methods and practices which can detect embrittlement of steel parts. It is a process control or referee verification test. The risk of embrittlement of steel is minimized by using best practices in the finishing/coating process. One such practice is described in SAE/USCAR-5, Avoidance of Hydrogen Embrittlement of Steel.

Standard

DEEMBRITTLEMENT VERIFICATION TEST

2012-07-30

HISTORICAL

USCAR7-1

This standard outlines test methods and practices which can detect embrittlement of steel parts. It is a process control or referee verification test. The risk of embrittlement of steel is minimized by using best practices in the finishing/coating process. One such practice is described in SAE/USCAR-5, Avoidance of Hydrogen Embrittlement of Steel.

Standard

DEEMBRITTLEMENT VERIFICATION TEST

2020-11-19

CURRENT

USCAR7-2

This standard outlines test methods and practices which can detect embrittlement of steel parts. It is a process control or referee verification test. The risk of embrittlement of steel is minimized by using best practices in the finishing/coating process. One such practice is described in SAE/USCAR-5, Avoidance of Hydrogen Embrittlement of Steel.

Standard

ELECTRICAL CONNECTOR DESIGN REQUIREMENTS

2021-01-20

CURRENT

USCAR12-6

This document gives specific and measurable design requirements to be applied at a design review prior to tooling. The specification is formatted as a checklist to aid in its use. The requirements do not apply in all situations so engineering judgment must be used. This is a specification for design; applicable performance specifications (USCAR-2, etc.) must still be performed. Specific requirements in this document are grouped by component using a prefix as shown in Table 1 and are numbered by an item number following the prefix.

Standard

Ergonomic Guidelines for Small Lot Delivery Operations

2015-03-10

CURRENT

USCAR42

This document describes the design, assessment methods and physical requirements associated with material handling systems. This would include, but not limited to manual dollies, small lot systems and kitting. All possible designs and applications could not be anticipated in creating these guidelines. Where there are questions of adherence to this document, such as use of an “off-the shelf” design, always consult the responsible Ergonomics Department.

Standard

FIELD CORRELATED LIFE TEST SUPPLEMENT TO SAE/USCAR-2

2004-06-23

HISTORICAL

USCAR20-1

This life test for underhood/passenger/trunk connector systems may be used in place of Section 5.9.6, Connection System Electrical Table of SAE/USCAR-2. All other requirements of SAE/USCAR-2 remain applicable even when this test is used. Refer to SAE/USCAR-2 and Connector/Terminal Supplier for appropriate power rating and current cycle Testing.

Standard

GRAIN FLOW PATTERN FOR BOLTS AND SCREWS

1998-12-30

HISTORICAL

USCAR8

This specification covers the grain flow pattern requirements in headed bolts and screws. The heading practice in the manufacture of the bolt or screw sets the grain flow pattern, but it is also greatly influenced by the fastener design.

Standard

GRAIN FLOW PATTERN FOR BOLTS, SCREWS, AND STUDS

2007-03-13

HISTORICAL

USCAR8-2

This specification covers the grain flow pattern requirements in headed bolts, screws, and studs. The heading practice in the manufacture of the bolt, screw, or stud sets the grain flow pattern, but it is also greatly influenced by the fastener design.

Standard

GRAIN FLOW PATTERN FOR BOLTS, SCREWS, AND STUDS

2019-03-14

CURRENT

USCAR8-4

This specification covers the grain flow pattern requirements in headed bolts, screws, and studs. The heading practice in the manufacture of the bolt, screw, or stud sets the grain flow pattern, but it is also greatly influenced by the fastener and tooling design as well as cold-forging setup. The use of tooling design simulation software is recommended and a commonly used practice that provides reliable forging predictions for superior grain flow quality.

Standard

Grain Flow Pattern for Bolts, Screws, and Studs

2013-12-31

HISTORICAL

USCAR8-3

This specification covers the grain flow pattern requirements in headed bolts, screws, and studs. The heading practice in the manufacture of the bolt, screw, or stud sets the grain flow pattern, but it is also greatly influenced by the fastener design.