Standard
SEALING RINGS–CAST IRON
1977-08-01
HISTORICAL
J281A_197708
Search Results
Standard
Cast Iron Sealing Rings
1992-12-01
CURRENT
J281_199212
Standard
SAE Band Friction Test Machine Guidelines
2012-03-19
CURRENT
J1499_201203
This SAE Recommended Practice is intended as a guide toward implementation of a standard practice but may be subject to frequent change to keep pace with experience and technical advances. This should be kept in mind when considering its use. The SAE band friction test machine is used to evaluate the frictional characteristics of automatic transmission band friction materials with automatic transmission fluids. It can also be used to conduct durability tests on wet friction systems.
Standard
SYMBOLS FOR HYDRODYNAMIC DRIVES
1988-06-01
HISTORICAL
J640_198806
The following system of symbols is recommended for use in technical papers and engineering reports dealing with hydrodynamic drives.
Standard
Symbols for Hydrodynamic Drives
2000-03-10
HISTORICAL
J640_200003
The following system of symbols is recommended for use in technical papers and engineering reports dealing with hydrodynamic drives.
Standard
SYMBOLS FOR HYDRODYNAMIC DRIVES
1981-12-01
HISTORICAL
J640_198112
Standard
FLYWHEELS FOR ENGINE-MOUNTED TORQUE CONVERTERS
1995-03-05
HISTORICAL
J927_199503
This SAE Recommended Practice defines flywheel configuration to promote standardization of flywheels for engine flywheel mounted torque converters. Tables 1A and 1B and Figure 1 give dimensions for flywheels mounted-type torque converters. For torque converters using drive ring overcenter type disconnect clutch, see SAE J620.
Standard
FLYWHEELS FOR ENGINE MOUNTED TORQUE CONVERTERS
1977-03-01
HISTORICAL
J927B_197703
This SAE Recommended Practice defines flywheel configuration to promote standardization of flywheels for engine flywheel mounted torque converters. Table 1 and figure give dimensions for flywheels for torque converters. For torque converter with a front disconnect clutch, refer to applicable SAE Standard or Recommended Practice.
Standard
Automatic Transmissions—Manual Control Sequence
2007-10-22
HISTORICAL
J915_200710
The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks. This generally refers to left hand drive mechanical shift applications.
Standard
Automatic Transmissions - Manual Control Sequence
2017-03-09
CURRENT
J915_201703
The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks. This generally refers to left hand drive mechanical shift applications.
Standard
AUTOMATIC TRANSMISSIONS-MANUAL CONTROL SEQUENCE
1988-12-01
HISTORICAL
J915_198812
Standard
AUTOMATIC TRANSMISSIONS—MANUAL CONTROL SEQUENCE
1993-04-01
HISTORICAL
J915_199304
The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks.
Standard
Automatic Transmissions—Manual Control Sequence
2000-11-02
HISTORICAL
J915_200011
The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks.
Standard
MANUAL CONTROL SEQUENCE FOR AUTOMATIC TRANSMISSIONS
1965-07-01
HISTORICAL
J915_196507
Standard
SAE No. 2 Clutch Friction Test Machine Guidelines
2012-03-19
CURRENT
J286_201203
This SAE Recommended Practice is intended as a guide toward implementation of a standard practice but may be subject to frequent change to keep pace with experience and technical advances. This should be kept in mind when considering its use. The SAE No. 2 Friction Test Machine is used to evaluate the friction characteristics of automatic transmission plate clutch with automotive transmission fluids. It can also be used to conduct durability tests on wet friction systems. This document is intended for common use by both suppliers and end users to define minimum test machine requirements to allow objective comparisons of wet friction material system performance.
Standard
Hydrodynamic Drive Test Code
2000-05-16
HISTORICAL
J643_200005
The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE—For more information about these characteristics and the design of hydrodynamic drives, see “Design Practices—Passenger Car Automatic Transmissions,” SAE Advances in Engineering, Vol. 5.
Standard
HYDRODYNAMIC DRIVE TEST CODE
1989-06-01
HISTORICAL
J643_198906
The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed. b Input speed versus speed ratio and output speed. c Efficiency versus speed ratio and output speed. d Capacity factor versus speed ratio and output speed. e Input torque versus input speed. NOTE: For more information about these characteristics and the design of hydrodynamic drives, see "Design Practices--Passenger Car Automatic Transmissions," SAE Advances in Engineering, Vol. 5.
Standard
Automatic Transmission Intake Filter Test Procedure
2021-06-22
CURRENT
J2312_202106
This test procedure is intended to apply to hydraulic pump suction filters and strainers used in automotive automatic transmissions that include hydraulic power pumps. The various paragraphs of Section 5 include a variety of tests and alternative tests that are not applicable to all filters and applications, so the engineer must specify which tests are to be performed for a particular application. These test procedures are intended to evaluate filter functional performance characteristics only, durability is not evaluated under this standard. Filter design requirements must be specified by the engineer on the filter assembly drawing, an applicable engineering specification, or summarized on an application data sheet similar to that found in this recommended practice. See Figure 6. Pressure circuit filters, both barrier and system contamination control types, are not covered under this standard.
Standard
Hydrodynamic Drive Test Code
2023-08-01
CURRENT
J643_202308
The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE: For more information about these characteristics and the design of hydrodynamic drives, refer to “Design Practices: Passenger Car Automatic Transmissions,” SAE Advances in Engineering, AE-18 (Third Ed.) or AE-29 (Fourth Ed.).
Standard
Rectangular Cross Section Polymeric Sealing Rings
2019-10-09
CURRENT
J2310_201910
The purpose of this SAE Recommended Practice is to establish guidelines for the automatic transmission and hydraulic systems engineer to design rectangular cross section seals for rotating and static grooved shaft applications. Also included are property comparisons of polymeric materials suitable for these applications. Historically, material covered in this document is not intended to include aluminum contact applications.
