Standard
AGRICULTURAL TRACTOR TEST CODE
1972-06-01
HISTORICAL
J708C_197206
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Standard
AGRICULTURAL TRACTOR TEST CODE
1980-06-01
HISTORICAL
J708_198006
Standard
AGRICULTURAL TRACTOR TEST CODE
1983-07-01
HISTORICAL
J708_198307
Standard
ALTERNATIVE AUTOMOTIVE FUELS
1989-06-01
HISTORICAL
J1297_198906
Standard
ALTERNATIVE AUTOMOTIVE FUELS
1987-05-01
HISTORICAL
J1297_198705
Standard
Aerospace Auxiliary Power Sources
2020-11-19
CURRENT
AIR744D
This SAE Aerospace Information Report (AIR) is a review of the general characteristics of power sources that may be used to provide secondary, auxiliary, or emergency power for use in aircraft, space vehicles, missiles, remotely piloted vehicles, air cushion vehicles, surface effect ships, or other vehicles in which aerospace technology is used. The information contained herein is intended for use in the selection of the power source most appropriate to the needs of a particular vehicle or system. The information may also be used in the preparation of a power source specification. Considerations for use in making a trade study and an evaluation of the several power sources are included. More detailed information relating to specific power sources is available in other SAE Aerospace Information Reports or in Aerospace Recommended Practices.
Standard
Agricultural Tractor Test Code
1999-09-01
HISTORICAL
J708_199902
The purpose of this SAE Standard is to define test conditions, give a description of the tests to be made, specify data to be obtained, show formulas and calculations, define terms, and establish a uniform method of reporting so that performance data obtained on various makes and models of tractors, tested in accordance with this document, will be comparable regardless of where the test is made. It is obvious, because of the many present day tractor models available in a number of types with numerous items of special or optional equipment, that the scope of this document must be limited to obtaining and reporting only the most significant of widely used performance data.
Standard
Automotive Gasolines
2010-11-05
HISTORICAL
J312_201011
This SAE Recommended Practice summarizes the composition of modern automotive gasolines, the significance of their physical and chemical characteristics, and the pertinent test methods for defining or evaluating these properties.
Standard
Automotive Gasolines
2019-02-06
CURRENT
J312_201902
This SAE Recommended Practice summarizes the composition of modern automotive gasolines, the significance of their physical and chemical characteristics, and the pertinent test methods for defining or evaluating these properties.
Standard
COMMERCIAL LITERATURE SPECIFICATIONS—OFF-ROAD WORK MACHINES
1985-01-01
HISTORICAL
J1233_198501
This standard is applicable to off-road work machines - base machine and its equipment included in categories 1.1, 1.2, 2, 4, and 5 of SAE J1116.
Standard
CONSTANT VOLUME SAMPLER SYSTEM FOR EXHAUST EMISSIONS MEASUREMENT
1978-04-01
HISTORICAL
J1094A_197804
This SAE Recommended Practice describes uniform laboratory techniques for employing the constant volume sampler (CVS) system in measuring various constituents in the exhaust gas of gasoline engines installed on passenger cars and light trucks. The techniques described relate particularly to CVS systems employing positive displacement pumps. In some areas of CVS practice, alternate procedures are given as a guide toward development of uniform laboratory techniques. The report includes the following sections: 1. Introduction 2. Definitions 3. Test Equipment 3.1 Sampler 3.2 Bag Analysis 3.3 Modal Analysis 3.4 Instrument Operating Procedures 3.5 Supplementary Discussions 3.6 Tailpipe Connections 3.7 Chassis Dynamometer 4. Operating and Calibrating Procedure 4.1 Calibration 4.2 Operating Procedures 5. Data Analysis 5.1 Bag Analysis 5.2 Modal Analysis 5.3 Background 5.4 Fuel Economy 6. Safety
Standard
CONSTANT VOLUME SAMPLER SYSTEM FOR EXHAUST EMISSIONS MEASUREMENT
1992-06-01
HISTORICAL
J1094_199206
This SAE Information Report describes uniform laboratory techniques for employing the constant volume sampler (CVS) system in measuring various constituents in the exhaust gas of gasoline engines installed on passenger cars and light trucks. The techniques described relate particularly to CVS systems employing positive displacement pumps. This is essentially an almost obsolete system relative to usage in industry and government. Current practice favors the use of a critical flow venturi to measure the diluted exhaust flow. In some areas of CVS practice, alternative procedures are given as a guide toward development of uniform laboratory techniques. The report includes the following sections: Introduction 1. Scope 2. References 2.1 Applicable Publications 3. Definitions 4. Test Equipment 4.1 Sampler 4.2 Bag Analysis 4.3 Modal Analysis 4.4 Instrument Operating Procedures 4.5 Supplementary Discussions 4.6 Tailpipe Connections 4.7 Chassis Dynamometer 5.
Standard
Cable, Electric, Filter Line, Radio Frequency Absorptive
2021-06-22
CURRENT
AS85485D
This specification covers the requirements for radio frequency absorptive component wires and finished cables which function electrically as distributed low-pass filters. Materials and construction details are specified in the detail specification.
Standard
Cable, Electric, Filter Line, Radio Frequency Absorptive
2021-03-05
HISTORICAL
AS85485C
This specification covers the requirements for radio frequency absorptive component wires and finished cables which function electrically as distributed low-pass filters. Materials and construction details are specified in the detail specification.
Standard
Certified Power Engine Data for GM LKW as used in 2014MY Chevrolet Malibu (based on 2014MY Chevrolet Impala) - Level 2
2013-05-22
CURRENT
CPGM2_14LKWMALI
This product includes information on the manufacturer, engine, applications, testing location, certified maximum horsepower, certified maximum torque along with the certified curves of horsepower and torque over a wide range of engine RPM speeds. In addition, this product contains complete engine information such as displacement, cylinder configuration, valve train, combustion cycle, pressure charging, charge air cooling, bore, stroke, cylinder numbering convention, firing order, compression ratio, fuel system, fuel system pressure, ignition system, knock control, intake manifold, exhaust manifold, cooling system, coolant liquid, thermostat, cooling fan, lubricating oil, fuel, fuel shut off speed, etc. Also included are all measured test parameters outlined in J2723.
Standard
Classification of Energy Conserving Engine Oil and Resource Conserving Engine Oil for Passenger Cars, Vans, Sport Utility Vehicles, and Light-Duty Trucks
2015-02-18
HISTORICAL
J1423_201502
This SAE Recommended Practice was developed cooperatively by SAE, ASTM, and API to define and identify Energy Conserving or Resource Conserving engine oils for passenger cars, vans, sport utility vehicles, and light-duty (3856 kg [8500 lb] GVW or less) trucks.
Standard
Classification of Energy Conserving Engine Oil for Passenger Cars, Vans, Sport Utility Vehicles, and Light-Duty Trucks
2003-12-02
HISTORICAL
J1423_200312
This SAE Standard was developed cooperatively by SAE, ASTM, and API to define and identify Energy Conserving engine oils for passenger cars, vans, sport utility vehicles, and light-duty (3856 kg [8500 LB] GVW or less) trucks.
Standard
Classification of Energy Conserving and Resource Conserving Engine Oil for Passenger Cars, Vans, Sport Utility Vehicles, and Light-Duty Trucks
2021-11-23
CURRENT
J1423_202111
This SAE Recommended Practice was developed cooperatively by SAE, ASTM, and API to define and identify energy conserving or resource conserving engine oils for passenger cars, vans, sport utility vehicles, and light-duty (3856 kg [8500 pounds] GVW or less) trucks.
Standard
Classification, Nomenclature, and Specification Definitions for Horizontal Earthboring Machines
2000-06-15
HISTORICAL
J2022_200006
This SAE Standard applies to horizontal earthboring machines of the following types: a Auger Boring Machines b Rod Pushers c Rotary Rod Machines d Impact Machines e Directional Boring/Drilling Machines The illustrations used are for classification and are not intended to resemble a particular machine. Only basic working dimensions are given. They may be supplemented by the machine manufacturer. This document is based on existing commercial horizontal earthboring machines. This document does not apply to specialized mining machinery in SAE J1116, conveyors, tunnel boring machines, pipe jacking systems, and microtunnelers.
Standard
Classification, Nomenclature, and Specification Definitions for Horizontal Earthboring Machines
2007-08-30
HISTORICAL
J2022_200708
This SAE Standard applies to horizontal earthboring machines of the following types: a Auger Boring Machines b Rod Pushers c Rotary Rod Machines d Impact Machines e Directional Boring/Drilling Machines The illustrations used are for classification and are not intended to resemble a particular machine. Only basic working dimensions are given. They may be supplemented by the machine manufacturer. This document is based on existing commercial horizontal earthboring machines. This document does not apply to specialized mining machinery in SAE J1116, conveyors, tunnel boring machines, pipe jacking systems, and microtunnelers.
