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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

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

Fuel Injection Equipment Nomenclature

1999-04-21
HISTORICAL
J830_199904
This SAE Standard establishes a vocabulary and definitions relating to the components used in fuel injection systems for compression ignition (diesel) engines. Definitions are separated into six sections by topic as follows: Section 3— Fuel Injection Pumps Section 4— Fuel Injectors Section 5— Unit Injectors Section 6— Governors Section 7— Timing Devices Section 8— High Pressure Pipes and Connections NOTE— When the word "fuel" is used in the terms listed it may be omitted providing there can be no misunderstanding.
Standard

Automatic Transmission Hydraulic Control Systems - Terminology

2011-06-13
CURRENT
J648_201106
The following is a list of the most common terminology used in describing hydraulic control systems. The hydraulic control system of an automatic transmission may include oil pumps, pressure regulator, governor, and control valves.
Standard

Qualifications for Four-Way Subbase Mounted Air Valves for Automotive Manufacturing Applications

2005-05-25
CURRENT
J2051_200505
This SAE Recommended Practice describes the requirements necessary for four-way subbase mounted, directional air-control valves to be used in automotive manufacturing applications. It includes minimum performance, operation, and physical requirements to qualify the valves for service in automotive manufacturing applications. Included are spool, poppet, and sliding disc types of air valves for pressures in a range of vacuum to 1034 kPa (150 lb/in2) gage, and temperatures from −18 to 60 °C (0 to 140 °F).
Standard

Qualifications for Four-Way Subbase Mounted Air Valves for Automotive Manufacturing Applications

1992-06-01
HISTORICAL
J2051_199206
This SAE Recommended Practice describes the requirements necessary for four-way subbase mounted, directional air-control valves to be used in automotive manufacturing applications. It includes minimum performance, operation, and physical requirements to qualify the valves for service in automotive manufacturing applications. Included are spool, poppet, and sliding disc types of air valves for pressures in a range of vacuum to 1034 Kpa (150 lb/in2) gage, and temperatures from -18 to 60 °C (0 to 140 °F).
Standard

Two-Stroke-Cycle Gasoline Engine Lubricants Performance and Service Classification

2003-07-31
CURRENT
J2116_200307
This SAE Standard was prepared by Technical Committee 1, Engine Lubrication, of SAE Fuels and Lubricants Council. The intent is to improve communications among engine manufacturers, engine users, and lubricant marketers in describing lubricant performance characteristics. The key objective is to ensure that a correct lubricant is used in each two-stroke-cycle engine.
Standard

Hydraulic Directional Control Valves, 3000 PSI Maximum

2014-10-24
CURRENT
J748_201410
This SAE Recommended Practice has been set up by Subcommittee 4 of the Off-Road Machinery Technical Committee and is primarily for directional control valves on construction and industrial machinery equipment as referenced in SAE J1116. The purpose is to establish port area to flow relationship and match valve spool eye ends in relation to rated capacity. Port connections are optional for either the 4-bolt split flange connection or the internal straight thread "O" ring connection.
Standard

High Temperature Materials for Exhaust Manifolds

1999-08-01
HISTORICAL
J2515_199908
A subcommittee within SAE ISTC Division 35 has written this report to provide automotive engineers and designers a basic understanding of the design considerations and high temperature material availability for exhaust manifold use. It is hoped that it will constitute a concise reference of the important characteristics of selected cast and wrought ferrous materials available for this application, as well as methods employed for manufacturing. The different types of manifolds used in current engine designs are discussed, along with their range of applicability. Finally, a general description of mechanical, chemical, and thermophysical properties of commonly-used alloys is provided, along with discussions on the importance of such properties.
Standard

High Temperature Materials for Exhaust Manifolds

2017-12-20
CURRENT
J2515_201712
A subcommittee within SAE ISTC Division 35 has written this report to provide automotive engineers and designers a basic understanding of the design considerations and high temperature material availability for exhaust manifold use. It is hoped that it will constitute a concise reference of the important characteristics of selected cast and wrought ferrous materials available for this application, as well as methods employed for manufacturing. The different types of manifolds used in current engine designs are discussed, along with their range of applicability. Finally, a general description of mechanical, chemical, and thermophysical properties of commonly-used alloys is provided, along with discussions on the importance of such properties.
Standard

Hydraulic Fluid Power--Valves--Method for Assessing the Lock Sensitivity to Contaminants

1999-10-01
HISTORICAL
J2470_199910
This SAE Recommended Practice defines a procedure, which will aid in assessing the contaminant sensitivity of hydraulic valves. The approach taken defines a test procedure with flexibility for testing valves in a wide range of contamination levels. The user of this procedure must establish the contamination levels for testing. Three levels are suggested which should cover the range for most valve applications. This procedure does not establish the contaminant sensitivity requirements for any valve. The user of this procedure needs to be aware of the system contamination level that the valve will operate in and select test contamination levels significantly higher than the operating level to assess the suitability of the valve. The test procedure permits a valve to be tested without disassembly and therefore permits protection of proprietary design information. This procedure assesses the contamination sensitivity of valves by contaminant lock.
Standard

Air Dryer Installation Procedure

2012-06-04
HISTORICAL
J2383_201206
This SAE Recommended Practice establishes uniform Installation Parameters for desiccant Air Dryers for vehicles with compressed air systems.
Standard

Labeling Air Brake Valves with Their Performance (Input-Output) characteristics

2011-05-16
HISTORICAL
J1860_201105
This SAE Recommended Practice applies to those air brake system valves used to control the vehicle service brakes and test procedures defined by SAE J1859 to measure performance characteristics. This Recommended Practice adheres to standard industry practice of using English units for specifying valve characteristics.
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