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Standard

Braking Performance--Asphalt Pavers

2006-01-04
HISTORICAL
J2118_200601
This SAE Standard specifies brake system performance and test criteria to enable uniform evaluation of the braking capability of self-propelled, rubber-tired asphalt pavers. Service, secondary, and parking brakes are included. Application This document applies to self-propelled, rubber-tired asphalt pavers as defined in 3.1 and to these same machines while in service.
Video

SAE Eye on Engineering: Ford's new steel-bodied Ranger

2018-11-08
Today, ford motor company begins U.S. production of its 2019 Ranger, the company's first midsize pickup. In this episode of SAE Eye on Engineering, Editor-in-Chief Lindsay Brooke looks at the new steel-bodied Ranger. SAE Eye on Engineering also airs Monday mornings on WJR 760 AM Detroit's Paul W. Smith Show.
Standard

Top Speed Test Procedure for Electric Motorcycles

2014-02-21
CURRENT
J3007_201402
This SAE Recommended Practice incorporates a track-based test procedure that produces a representative value for vehicle top speed when operating on a level paved road with a fully charged battery.
Collection

Autonomous Systems, 2017

2017-03-28
With a mandate in Europe for autonomous emergency braking systems, there is a development happening with radar and camera based systems to do collision mitigation. The challenges include robust object tracking, stationary object detection, reactions for false positives, etc. The developments and challenges in the collision mitigation technology are included in this collection.
Standard

Spark Arrester Test Carbon

2013-03-26
CURRENT
J997_201303
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Crane Boom Hoist Disengaging Device

2017-08-15
WIP
J999
This SAE Standard applies to cranes which are equipped to adjust the boom angle by hoisting and lowering means through rope reeving. The purpose of this standard is to define the function and to stipulate the requirements of an automatic device to prevent raising a variable angle boom above its highest specified angle.
Standard

Spark Arrester Test Carbon

1990-09-01
HISTORICAL
J997_199009
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Spark Arrester Test Carbon

1988-06-01
HISTORICAL
J997_198806
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Spark Arrester Test Carbon

1988-10-01
HISTORICAL
J997_198810
This SAE Standard establishes physical properties required of SAE Coarse Test Carbon and SAE Fine Test Carbon and establishes test methods to ensure that these requirements are met.
Standard

Brake Power Rating Test Code--Commercial Vehicle Inertia Dynamometer

2008-08-21
CURRENT
J971_200808
The code provides test procedures and methods of calculating a brake rating from the data obtained for brakes used in highway commercial vehicles over 4.5 T (10 000 lbs) GVWR air and hydraulic. Some general correlation may be expected between brake ratings established by this means and those obtained from vehicle tests such as outlined in SAE J880. The brake rating power, kW (hp) calculated by conduct of this code is an arbitrary index of performance of the brake and drum when tested by this procedure and may be appreciably different from the values obtained by other techniques.
Standard

Brake Power Rating Test Code--Commercial Vehicle Inertia Dynamometer

1966-09-01
HISTORICAL
J971_196609
The code provides test procedures and methods of calculating a brake rating from the data obtained for brakes used in highway commercial vehicles over 4.5 T (10 000 lbs) GVWR air and hydraulic. Some general correlation may be expected between brake ratings established by this means and those obtained from vehicle tests such as outlined in SAE J880. The brake rating power, kW (hp) calculated by conduct of this code is an arbitrary index of performance of the brake and drum when tested by this procedure and may be appreciably different from the values obtained by other techniques.
Collection

Autonomous Systems, 2015

2015-04-14
With a mandate in Europe for Autonomous emergency braking systems, there is a development happening with radar and camera based systems to do collision mitigation. The challenges include robust object tracking, stationary object detection, reactions for false positives etc. The developments and challenges in the collision mitigation technology are featured in this collection.
Book

The Electric and Hybrid Electric Car

2001-11-01
This book examines trends in electric car development from a global perspective, with many examples drawing from the author's own experiences in the American and European automotive industries. Beginning with the scientific discoveries that made electric vehicle technology possible at the outset of the 20th century, author Michael H. Westbrook provides a thorough discussion of the technology's early history. Though initially overtaken by the unstoppable rise of the internal combustion engine, interest in electric vehicles began to reappear in the 1960s due to their low-emissions potential. But it was not until the passage of a California law in 1990 mandating the sale of zero-emissions vehicles (ZEVs) that major automakers began serious development of the technology.
Standard

Ship Systems and Equipment--Part Standard for Studs--Continuous and Double End (Inch Series)

2016-11-22
WIP
J2271
This SAE Parts Standard provides dimensional and quality assurance requirements for 1/4 through 2 in sizes of studs in the following configurations in standard materials used for ship system applications: a. Continuous thread studs in UNRC and 8UNR series. b. Double end studs (clamping type) where both ends are of the same thread length (UNRC or 8UN). Also called bolt-studs. (These are suitable for mating with nuts or the set end may be installed with anaerobic thread locking compound.) c. Double end studs (interference thread type) with the nut end having UNRC or 8UNR series thread and where the tap end has NC 5 HFS interference fit thread forms. Also called a tap end stud. A complete metric companion to this document is provided in SAE J2271M, therefore no metric equivalents are presented. These studs are primarily or use in ship systems and equipment.
Standard

Ship Systems and Equipment-Part Standard for Studs-Continuous and Double End (Inch Series)

1996-06-01
HISTORICAL
J2271_199606
This SAE Parts Standard provides dimensional and quality assurance requirements for 1/4 through 2 in sizes of studs in the following configurations in standard materials used for ship system applications: a. Continuous thread studs in UNRC and 8UNR series. b. Double end studs (clamping type) where both ends are of the same thread series (UNRC or 8UN). Also called bolt-studs. (These are suitable for mating with nuts or the set end may be installed with anaerobic thread locking compound.) c. Double end studs (interference thread type) with the nut end having UNRC or 8UNR series thread and where the tap end has NC 5 HFS interference fit thread forms. Also called a tap end stud. A complete metric companion to this document is provided in SAE J2271M, therefore no metric equivalents are presented. These studs are primarily or use in ship systems and equipment.
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