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Standard

Engine and Transmission Dipstick Marking

1977-08-01
HISTORICAL
J614_197708
This SAE Recommended Practice provides information useful in the marking of engine and transmission dipsticks used for fluid level indication.
Standard

Split Type Bushings-Design and Application

1981-12-01
HISTORICAL
J835_198112
This SAE Standard presents the standard sizes, important dimensions, specialized measurement techniques and tolerances for split type bushings. Both SI and inch sizes are shown; their dimensions are not exact equivalents. New designs shall use SI units. Unless specifically stated as +/-, all tolerances are total.
Standard

Sleeve Type Half Bearings

1978-11-01
HISTORICAL
J506B_197811
This SAE Standard defines the normal dimensions, dimensioning practice, tolerances, specialized measurement techniques, and glossary of terms for bearing inserts commonly used in reciprocating machinery. The standard sizes cover a range which permits a designer to employ, in proper proportion, the durability and lubrication requirements of each application, while utilizing the forming and machining practices common in manufacture of sleeve type half bearings. Not included are considerations of hydrodynamic lubrication analysis or mechanical stress factors of associated machine structural parts which determine the nominal sizes to be used, selection of bearing material as related to load carrying capacity, and economics of manufacture. For information concerning materials, see SAE J459 and SAE J460. These suggested sizes provide guidelines which may result in minimal costs of tooling but do not necessarily represent items which can be ordered from stock.
Standard

Sleeve Type Half Bearings

2011-06-10
CURRENT
J506_201106
This SAE Standard defines the normal dimensions, dimensioning practice, tolerances, specialized measurement techniques, and glossary of terms for bearing inserts commonly used in reciprocating machinery. The standard sizes cover a range which permits a designer to employ, in proper proportion, the durability and lubrication requirements of each application, while utilizing the forming and machining practices common in manufacture of sleeve type half bearings. Not included are considerations of hydrodynamic lubrication analysis or mechanical stress factors of associated machine structural parts which determine the nominal sizes to be used, selection of bearing material as related to load carrying capacity, and economics of manufacture. For information concerning materials, see SAE J459 and SAE J460. These suggested sizes provide guidelines which may result in minimal costs of tooling but do not necessarily represent items which can be ordered from stock.
Standard

Guide to the Application and Use of Passenger Car Air-Conditioning Compressor Face Seals

1990-05-01
HISTORICAL
J1954_199005
This SAE Recommended Practice is intended as a guide in the usage of mechanical face seals for the passenger car air-conditioning compressor application. Included in this guide is a compilation of present practices; for example, a description of various type seals, material combinations, design data, tolerances, drawing format, qualification testing, inspection information, and quality control data. The terminology used is recommended to promote uniformity in seal nomenclature.
Standard

Guide to the Application and Use of Passenger Car Air-Conditioning Compressor Face Seals

2002-10-25
CURRENT
J1954_200210
This SAE Recommended Practice is intended as a guide in the usage of mechanical face seals for the passenger car air-conditioning compressor application. Included in this guide is a compilation of present practices; for example, a description of various type seals, material combinations, design data, tolerances, drawing format, qualification testing, inspection information, and quality control data. The terminology used is recommended to promote uniformity in seal nomenclature.
Standard

Engine Coolant Pump Seals

2002-10-25
CURRENT
J780_200210
This SAE Standard outlines physical dimensions and nomenclature for the sizes of seals commonly used in engine coolant pumps of automotive type engines. Its purpose is to define a standard envelope to accommodate installation of various seal designs and to promote uniformity in seal nomenclature. (See Figures 1 to 5.)
Standard

Engine Coolant Pump Seals

1984-04-01
HISTORICAL
J780_198404
This SAE Standard outlines physical dimensions and nomenclature for the sizes of seals commonly used in engine coolant pumps of automotive type engines. Its purpose is to define a standard envelope to accommodate installation of various seal designs and to promote uniformity in seal nomenclature. (See Figures 1 to 5.)
Standard

Engine Coolant Pump Seals

1978-11-01
HISTORICAL
J780A_197811
This SAE Standard outlines physical dimensions and nomenclature for the sizes of seals commonly used in engine coolant pumps of automotive type engines. Its purpose is to define a standard envelope to accommodate installation of various seal designs and to promote uniformity in seal nomenclature. (See Figures 1 to 5.)
Standard

Engine Coolant Pump Seals

2000-11-07
HISTORICAL
J780_200011
This SAE Standard outlines physical dimensions and nomenclature for the sizes of seals commonly used in engine coolant pumps of automotive type engines. Its purpose is to define a standard envelope to accommodate installation of various seal designs and to promote uniformity in seal nomenclature. (See Figures 1 to 5.)
Standard

Engine Coolant Pump Seals

1990-06-01
HISTORICAL
J780_199006
This SAE Standard outlines physical dimensions and nomenclature for the sizes of seals commonly used in engine coolant pumps of automotive type engines. Its purpose is to define a standard envelope to accommodate installation of various seal designs and to promote uniformity in seal nomenclature. (See Figures 1 to 5.)
Standard

Flywheels for Industrial Engines Used With Industrial Power Take-Offs Equipped With Driving-Ring Type Overcenter Clutches and Engine-Mounted Marine Gears and Single Bearing Engine-Mounted Power Generators

1988-10-01
HISTORICAL
J620_198810
This SAE standard defines flywheel configuration for industry standardization, interchangeability, and compatibility. Table 1 and Figure 1 give the dimensions for he flywheels. For dimensions of industrial power take-offs with driving-ring type overcenter cluthes, see SAE J621. For flywheel dimensions for engine-mounted torque converters without front disconnect clutch, see SAE J927.
Standard

Flywheels for Two-Plate Spring-Loaded Clutches

2012-05-31
CURRENT
J619_201205
This SAE Recommended Practice defines flywheel configuration to promote standardization of flywheels for dry spring-loaded clutches. Clutches to fit flywheels with configurations per this document may not be commercially available. Availability should be ascertained prior to flywheel design Figure 1 and Table 1A.
Standard

Flywheels for Industrial Engines Used With Industrial Power Take-Offs Equipped With Driving-Ring Type Overcenter Clutches and Engine-Mounted Marine Gears and Single Bearing Engine-Mounted Power Generators

1976-06-01
HISTORICAL
J620D_197606
This SAE standard defines flywheel configuration for industry standardization, interchangeability, and compatibility. Table 1 and Figure 1 give the dimensions for he flywheels. For dimensions of industrial power take-offs with driving-ring type overcenter cluthes, see SAE J621. For flywheel dimensions for engine-mounted torque converters without front disconnect clutch, see SAE J927.
Standard

Engine Foot Mounting (Front and Rear)

1995-07-01
HISTORICAL
J616_199507
This SAE Recommended Practice covers foot type mounting dimensions for engines intended for installation on subbases (See Table 1 and Figure 1).
Standard

Engine Terminology and Nomenclature - General

2011-08-05
CURRENT
J604_201108
This SAE Recommended Practice is applicable to all types of reciprocating engines including two-stroke cycle and free piston engines, and was prepared to facilitate clear understanding and promote uniformity in nomenclature. Modifying adjectives in some cases were omitted for simplicity. However, it is good practice to use adjectives when they add to clarity and understanding.
Standard

Industrial Power Take-Offs With Driving Ring-Type Overcenter Clutches

2012-10-23
CURRENT
J621_201210
This SAE Standard defines installation dimensions of industrial power take-offs with driving ring-type overcenter clutches. Table 1 and Figure 1 give dimensions for power take-offs. For dimensions and tolerances of power take-off flanges and flywheels, see SAE J617 and J620, respectively.
Standard

Flywheels for Industrial Engines Used With Industrial Power Take-Offs Equipped With Driving-Ring Type Overcenter Clutches and Engine-Mounted Marine Gears and Single Bearing Engine-Mounted Power Generators

1993-05-01
HISTORICAL
J620_199305
This SAE standard defines flywheel configuration for industry standardization, interchangeability, and compatibility. Table 1 and Figure 1 give the dimensions for he flywheels. For dimensions of industrial power take-offs with driving-ring type overcenter cluthes, see SAE J621. For flywheel dimensions for engine-mounted torque converters without front disconnect clutch, see SAE J927.
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

Seals--Bond Test Fixture and Procedure

2000-10-09
HISTORICAL
J1900_200010
Bond, as it relates to elastomeric seals, is defined as "The adhesion, established by vulcanization, between two cured elastomeric surfaces, or between one cured elastomeric surface and one nonelastomeric surface." Vulcanization refers in this case to chemical bonding. Good bond is essential to the function of elastomeric radial lip seals and other precision bonded parts. This SAE Recommended Practice describes a universal bond test fixture developed by the RMA that can be mounted to a conventional tensile test machine. This will allow a quantitative evaluation of bond rather than a merely qualitative one.
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