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Standard

Hydraulic Hose

1994-06-01
HISTORICAL
J517_199406
This SAE Standard provides general, dimensional and performance specifications for the most common hoses used in hydraulic systems on mobile and stationary equipment. The general specifications contained in Sections 1 through 12 are applicable to all hydraulic hoses and supplement the detailed specifications for the 100R-series hoses contained in the later sections of this document. (See Tables 1A and 1B). This document shall be utilized as a procurement document only to the extent as agreed upon by the manufacturer and user. The maximum working pressure of a hose assembly comprising SAE J517 hose and hose connectors per SAE J516, SAE J518, SAE J1453, etc., shall not exceed the lower of the respective SAE maximum working pressure values. When using SAE J517 hose for marine applications, see SAE J1475, SAE J1942 and SAE J1942-1. The SAE J517 100R9, 100R10 and 100R11 hoses are discontinued due to lack of demand. For DOD orders see Appendix C.
Standard

Hydraulic Hose

1993-06-01
HISTORICAL
J517_199306
This SAE Standard provides general, dimensional and performance specifications for the most common hoses used in hydraulic systems on mobile and stationary equipment. The general specifications contained in Sections 1 through 12 are applicable to all hydraulic hoses and supplement the detailed specifications for the 100R-series hoses contained in the later sections of this document. (See Tables 1A and 1B). This document shall be utilized as a procurement document only to the extent as agreed upon by the manufacturer and user. The maximum working pressure of a hose assembly comprising SAE J517 hose and hose connectors per SAE J516, SAE J518, SAE J1453, etc., shall not exceed the lower of the respective SAE maximum working pressure values. When using SAE J517 hose for marine applications, see SAE J1475, SAE J1942 and SAE J1942-1. The SAE J517 100R9, 100R10 and 100R11 hoses are discontinued due to lack of demand. For DOD orders see Appendix C.
Standard

Handling and Packaging of Materials and Components for Emissions Testing

2018-04-05
CURRENT
J2989_201804
This standard is intended for the automotive industry. Testing methods may specifically define the handling and packaging conditions for the material to be analyzed. In these cases, follow the method as closely as possible. Use this standard as a guide, where the protocol for handling and packaging the samples between part production and testing may be undefined.
Standard

Low-duty Inertia Dynamometer Hydraulic Brake Wear Test Procedures for Vehicles Above 4536 kg (10 000 lb) of GVWR

2014-10-21
CURRENT
J3006_201410
This Recommended Practice is derived from OEM and tier-1 laboratory tests and applies to two-axle multipurpose passenger vehicles, or trucks with a GVWR above 4536 kg (10 000 pounds) equipped with hydraulic disc or drum service brakes. Before conducting testing for a specific brake sizes or under specific test conditions, review, agree upon, and document with the test requestor any deviations from the test procedure. Also, the applicable criteria for the final test results and wear rates deemed as significantly different require definition, assessment, and proper documentation; especially as this will determine whether or not Method B testing is needed. This Recommended Practice does not evaluate or quantify other brake system characteristics such as performance, noise, judder, ABS performance, or braking under extreme temperatures or speeds. Minimum performance requirements are not part of this recommended practice.
Standard

Operator Controls on Industrial Equipment

1985-06-01
HISTORICAL
J297_198506
This SAE Standard is intended to improve operator efficiency and convenience by providing guidelines for the uniformity of location and direction of motion of operator controls used on industrial wheeled equipment. The controls covered are those centrally located at the operator's normal position. General These guidelines are based on the principle that a given direction of movement of any control produces a consistent and expected effect. Where confusion may result from the motion of the control, the effect from movement of the control shall be clearly and permanently identified.
Standard

Operator Controls on Industrial Equipment

2002-12-18
HISTORICAL
J297_200212
This SAE Standard is intended to improve operator efficiency and convenience by providing guidelines for the uniformity of location and direction of motion of operator controls used on industrial wheeled equipment. The controls covered are those centrally located at the operator's normal position. General These guidelines are based on the principle that a given direction of movement of any control produces a consistent and expected effect. Where confusion may result from the motion of the control, the effect from movement of the control shall be clearly and permanently identified.
Standard

Operator Controls on Industrial Equipment

2013-07-09
CURRENT
J297_201307
This SAE Standard is intended to improve operator efficiency and convenience by providing guidelines for the uniformity of location and direction of motion of operator controls used on industrial wheeled equipment. The controls covered are those centrally located at the operator's normal position.
Standard

Specifications -- Vacuum Excavation Equipment

2015-07-08
WIP
J3107
This SAE standard provides performance specifications for the design and safety of vacuum excavation equipment, including equipment mounted on a trailer, skid or truck.
Standard

Principles and Process for Developing Icons for Electronic Displays

2015-10-07
WIP
J3113
SAE Jxxxx provides principles and a process for developing icons for use in electronic displays related to Off Road Work Machines as stated defined in SAE J 1116. Following the process insures that icons are derived from ISO registered graphical symbols or ISO compliant non-registered graphical symbols.
Standard

Ambulance Patient Compartment Structural Integrity Test to Support SAE J3027 Compliant Litter Systems

2017-03-28
CURRENT
J3102_201703
This SAE Recommended Practice describes the dynamic and static testing procedures required to evaluate the integrity of the ambulance substructure, to support the safe mounting of an SAE J3027 compliant litter retention device or system, when exposed to a frontal, side or rear impact (i.e., a crash impact). Its purpose is to provide manufacturers, ambulance builders, and end-users with testing procedures and, where appropriate, acceptance criteria that to a great extent ensure the ambulance substructure meets the same performance criteria across the industry. Prospective manufacturers or vendors have the option of performing either dynamic testing or static testing. Descriptions of the test set-up, test instrumentation, photographic/video coverage, test fixture, and performance metrics are included.
Standard

Diesel Fuels

2017-06-07
CURRENT
J313_201706
Automotive and locomotive diesel fuels, in general, are derived from petroleum refinery products which are commonly referred to as middle distillates. Middle distillates represent products which have a higher boiling range than gasoline and are obtained from fractional distillation of the crude oil or from streams from other refining processes. Finished diesel fuels represent blends of middle distillates and may contain other blending components of substantially non-petroleum origin, such as biodiesel fuel blend stock, and/or middle distillates from non-traditional refining processes, such as gas-to-liquid processes. The properties of commercial distillate diesel fuels depend on the refinery practices employed and the nature of the crude oils from which they are derived. Thus, they may differ both with and within the region in which they are manufactured. Such fuels generally boil, at atmospheric pressure, over a range between 130 °C and 400 °C (approximately 270 °F to 750 °F).
Standard

Multi-Vehicle System Operational Efficiency Experimental Test Method

2017-07-10
WIP
J3148
This document describes a rigorous-engineering test procedure that utilizes industry accepted data collection and statistical analysis methods to determine the operational efficiency of multi-vehicle systems comprised primarily of trucks and buses with GVWR of more than 10,000 pounds. The test procedure may be conducted on a test track or on a public road under controlled conditions and supported by extensive data collection and data analysis constraints.
Standard

Assessment of Evaluation Method Types to Determine Operational Efficiency of Multi-Vehicle Systems

2017-07-10
WIP
J3147
Scope: This document provides an assessment of rigorous-engineering test and simulation methods that utilize industry accepted data collection and statistical analysis methods to determine the efficiency of multi-vehicle systems comprised primarily of trucks and buses with GVWR of more than 10,000 pounds. The document will provide guidance on the applicability and use of each method discussed.
Standard

Guidelines for Safer On-Road Testing of Prototype Automated Multi-Vehicle Truck and Bus Systems

2017-07-10
WIP
J3149
Scope: This document provides guidelines for safer conduct of on-road tests of multi-vehicle truck and bus systems that may be equipped with prototype automated driving systems comprised primarily of trucks and buses with GVWR of more than 10,000 pounds. The scope is further limited to testing of automated prototype multi-vehicle systems comprised primarily of trucks and buses with GVWR of more than 10,000 pounds on public roads.
Standard

Taxonomy and Definitions for Automated Multi-Vehicle Truck and Bus Systems

2017-07-10
WIP
J3150
Scope: This document provides a taxonomy and definitions for trucks and buses with GVWR of more than 10,000 pounds with driving automation systems that perform part or all of the dynamic driving task on a sustained basis and that range in level from no driving automation (level 0) to full driving automation (level 5).
Standard

Air Conditioning Service Procedures for Heavy duty and Off-Highway work Machines using R-134a refrigerant

2016-09-12
WIP
J3126
This recommended practice provides technicians with safe and efficient techniques and general equipment recommendations for servicing Mobile Air Conditioning (MAC) systems in heavy duty and off-highway work machines. Presently, R-134a is the only approved refrigerant for use in mobile heavy duty and off-highway equipment and therefore this document primarily covers the servicing of R-134a systems. Since the technician may encounter other refrigerants a brief explanation on the identification safe handling of each refrigerant will be introduced.
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