Search Results

Standard

Truck Ability Prediction Procedure

1997-02-01

CURRENT

J688_199702

The procedure has been developed to provide a practical method for the prediction of truck performance using accepted data. It Is designed to help anyone concerned with the problem of truck selection. By following directions, it is possible to determine the necessary information for intelligent truck selection without being concerned with the origin or derivation of the complex factors involved. With readily available specification of a truck, information provided in the tables, and minimum of calculation, it is possible to predict: (a) The performance obtainable from a truck of given characteristics under given operating conditions. (b) The characteristics required in a truck to meet different performance requirements under given operating conditions. This report comprises a procedure form and 10 tables of data.

Standard

Torque Ratings for Power Take-off Mounting Pads

2017-09-19

CURRENT

J2662_201709

This SAE Recommended Practice is intended to serve as a reference for the amount of torque that a Power Take-Off can induce on the transmission mounting pad. This document will apply to six-bolt, eight-bolt, and rear mounted power take-offs.

Standard

Torque Ratings for Power Take-off Mounting Pads

2003-07-25

HISTORICAL

J2662_200307

This SAE Recommended Practice is intended to serve as a reference for the amount of torque that a Power Take-Off can induce on the transmission mounting pad. This document will apply to six-bolt, eight-bolt, and rear mounted power take-offs.

Standard

Test Method to Obtain Lug-Up Torque Data for Heavy-Duty Truck and Bus Engines

2001-04-25

CURRENT

J2548_200104

This SAE Recommended Practice applies to all forms of diesel and natural gas engines fueled by the combination of diesel fuel and natural gas.

Standard

TRUCK ABILITY PREDICTION PROCEDURE

1963-06-01

HISTORICAL

J688_196306

Standard

TRUCK ABILITY PREDICTION PROCEDURE

1987-08-01

HISTORICAL

J688_198708

Standard

SAE Nodal Mount

2017-08-14

CURRENT

J1134_201708

This SAE Recommended Practice establishes a single bolt pattern for the No. 1 clutch housing (see Figure 1) and the No. 2 clutch housing (see Figure 2). These four bolt patterns are designated to give commonality of mounting brackets in existing frame rails. The 420 mm (16.5 in) span, pad face to pad face, allows the ease of installation in existing frame rail widths. This is also the minimum spacing which will accommodate commonly used clutches.

Standard

SAE Nodal Mount

2000-04-26

HISTORICAL

J1134_200004

This SAE Recommended Practice establishes a single bolt pattern for the No. 1 clutch housing (see Figure 1) and the No. 2 clutch housing (see Figure 2). These four bolt patterns are designated to give commonality of mounting brackets in existing frame rails. The 420 mm (16.5 in) span, pad face to pad face, allows the ease of installation in existing frame rail widths. This is also the minimum spacing which will accommodate commonly used clutches.

Standard

Pull-Type Clutch Transmission Installation Dimensions

2012-11-09

CURRENT

J1463_201211

This SAE Recommended Practice documents the typical transmission interface dimensions that are used with 14-in and larger pull-type clutches. See Figure 1.

Standard

Pull-Type Clutch Transmission Installation Dimensions

2003-04-24

HISTORICAL

J1463_200304

This SAE Recommended Practice documents the typical transmission interface dimensions that are used with 14-in and larger pull-type clutches. See Figure 1.

Standard

Pull-Type Clutch Transmission Installation Dimensions

1998-01-01

HISTORICAL

J1463_199801

This SAE Recommended Practice documents the typical transmission interface dimensions that are used with 14-in and larger pull-type clutches. See Figure 1.

Standard

Openings for Six- and Eight-Bolt Truck Transmission Mounted Power Take-Offs

2017-11-03

CURRENT

J704_201711

The accompanying mounting and gear locations are applicable for all general installations of power take-off on the transmission gear box of motor trucks and tractors where the size of the transmission permits. The heavy-duty type opening can be adapted to the regular-duty type by the use of an adapter with 6.35 mm (0.25 in) flange thickness with appropriate bolt pattern and thread engagement. (See Figures 1 and 2.)

Standard

Openings for Six- and Eight-Bolt Truck Transmission Mounted Power Take-Offs

2000-09-07

HISTORICAL

J704_200009

The accompanying mounting and gear locations are applicable for all general installations of power take-off on the transmission gear box of motor trucks and tractors where the size of the transmission permits. The heavy-duty type opening can be adapted to the regular-duty type by the use of an adapter with 6.35 mm (0.25 in) flange thickness with appropriate bolt pattern and thread engagement. (See Figures 1 and 2.)

Standard

OPENINGS FOR SIX- AND EIGHT-BOLT TRUCK TRANSMISSION MOUNTED POWER TAKE-OFFS

1983-06-01

HISTORICAL

J704_198306

Standard

OPENINGS FOR SIX- AND EIGHT-BOLT TRUCK TRANSMISSION MOUNTED POWER TAKE-OFFS

1978-04-01

HISTORICAL

J704B_197804

Standard

Manual Transmission Shift Patterns

2001-09-07

HISTORICAL

J1608_200109

Provide standard shift pattern guidelines for manual transmission shift controls in light, medium, and heavy trucks and buses.

Standard

Manual Transmission Shift Patterns

2017-08-15

CURRENT

J1608_201708

Provide standard shift pattern guidelines for manual transmission shift controls in light, medium, and heavy trucks and buses.

Standard

Manual Transmission Shift Patterns

2012-11-09

HISTORICAL

J1608_201211

Provide standard shift pattern guidelines for manual transmission shift controls in light, medium, and heavy trucks and buses.

Standard

Manual Transmission Efficiency and Parasitic Loss Measurement

2000-11-02

HISTORICAL

J1540_200011

Because of the intense focus on fuel economy and fuel emission standards, it has become imperative to optimize vehicle drivetrains. In light of this, component efficiencies have become an important factor in the drivetrain decision-making process. It has therefore become necessary to develop a universal standard to judge transmission efficiency. This SAE Recommended Practice specifies a test procedure which maps torque transmittal efficiency and parasitic losses for manual transmissions. The application of this document is intended for manual transmissions used in light (class 4) through heavy truck applications with both simple and compound ratio structures. This document is separated into two parts. The first compares input and output torque throughout a specified input speed range in order to determine the overall transmission efficiency. This test is used to evaluate all forward gears; testing in reverse is optional.

Standard

Manual Transmission Efficiency and Parasitic Loss Measurement

2012-11-09

CURRENT

J1540_201211

Because of the intense focus on fuel economy and fuel emission standards, it has become imperative to optimize vehicle drivetrains. In light of this, component efficiencies have become an important factor in the drivetrain decision-making process. It has therefore become necessary to develop a universal standard to judge transmission efficiency. This SAE Recommended Practice specifies a test procedure which maps torque transmittal efficiency and parasitic losses for manual transmissions. The application of this document is intended for manual transmissions used in light (class 4) through heavy truck applications with both simple and compound ratio structures. This document is separated into two parts. The first compares input and output torque throughout a specified input speed range in order to determine the overall transmission efficiency. This test is used to evaluate all forward gears; testing in reverse is optional.