Search Results

Standard

Drain and Fill Plug for use on Engines, Transmissions, and Axles

2003-07-29

HISTORICAL

J2606_200307

Drain and Fill plugs used on engines, transmissions, transfer cases and front and rear drive axles for class 5 – 8 vehicles.

Standard

Drain and Fill Plug for use on Engines, Transmissions, and Axles

2017-09-19

CURRENT

J2606_201709

Drain and Fill plugs used on engines, transmissions, transfer cases and front and rear drive axles for class 5 – 8 vehicles.

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

Hydraulic Hybrid Terminology and Definitions

2012-11-21

CURRENT

J2898_201211

As the number of Hydraulic Hybrid Powertrain equipped motor vehicles has increased, the number of terms, abbreviations, and acronyms which describe various components of these systems has increased. For the sake of industry standardization and to bring some order to the proliferation of such terms, abbreviations, and acronyms, the SAE Truck and Bus Hydraulic Hybrid committee prepared this document.

Standard

Pilot Bearings for Truck and Bus Applications

2017-08-14

CURRENT

J1731_201708

This SAE Recommended Practice describes STANDARD-DUTY and EXTREME-DUTY Pilot Bearing requirements and sizes for class 6, 7, and 8 on-highway trucks and buses that use diesel engines and manual transmissions. The recommendations may apply to a wide range of other pilot-bearing applications, such as agricultural, industrial, and construction equipment.

Standard

Pilot Bearings for Truck and Bus Applications

2001-06-12

HISTORICAL

J1731_200106

This SAE Recommended Practice describes STANDARD-DUTY and EXTREME-DUTY Pilot Bearing requirements and sizes for class 6, 7, and 8 on-highway trucks and buses that use diesel engines and manual transmissions. The recommendations may apply to a wide range of other pilot-bearing applications, such as agricultural, industrial, and construction equipment.

Standard

Recommended Practices for CNG Powered Medium and Heavy-Duty Trucks

2018-02-12

CURRENT

J2406_201802

This SAE Recommended Practice provides guidance for the construction, operation, and maintenance of CNG powered medium and heavy-duty trucks. The intent of this document is to cover TRUCKS (6350 kg (14 001 gvw pounds) and above) and specifically excludes passenger vehicles such as: buses, recreational vehicles, motor homes and/or passenger vehicles which may incorporate a truck chassis in their construction.

Standard

Recommended Practices for CNG Powered Medium and Heavy-Duty Trucks

2002-03-13

HISTORICAL

J2406_200203

This SAE Recommended Practice provides guidance for the construction, operation, and maintenance of CNG powered medium and heavy-duty trucks. The intent of this document is to cover TRUCKS (6350 kg (14 001 gvw pounds) and above) and specifically excludes passenger vehicles such as: buses, recreational vehicles, motor homes and/or passenger vehicles which may incorporate a truck chassis in their construction.

Standard

CERTIFICATES OF MAXIMUM NET HORSEPOWER FOR MOTOR TRUCKS AND TRUCK TRACTORS

1965-02-01

HISTORICAL

J690_196502

Standard

SAE NODAL MOUNT

1992-02-01

HISTORICAL

J1134_199202

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

1983-10-01

HISTORICAL

J1134_198310

This SAE Recommended Practice establishes a single bolt pattern for both No. 1 and No. 2 clutch housings (see Fig. 1). This four-bolt pattern is designated to give commonality of mounting brackets in existing frame rails. The 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 a 15.5 in two-plate clutch. The bolt pattern due to its symmetry allows reversing or inverting of brackets to attain change in vertical or horizontal positioning with fewer brackets. The phi (ϕ) symbol is for the convenience of the user in locating areas where technical revisions have been made to the previous issue of the report. If the symbol is next to the report title, it indicates a complete revision of the report.

Standard

Axle Efficiency Test Procedure

2001-04-27

CURRENT

J1266_200104

Data from this SAE Recommended Practice permit mapping axle efficiency and/or waste energy over the operating range of trucks, busses, and other highway vehicles based on truck chasses.

Standard

AXLE EFFICIENCY TEST PROCEDURE

1979-06-01

HISTORICAL

J1266_197906

Data from this procedure permits mapping axle efficiency and/or waste energy over the operating range of passenger cars, trucks, busses, and other highway vehicles to which axles are applied.

Standard

AXLE EFFICIENCY TEST PROCEDURE

1990-06-01

HISTORICAL

J1266_199006

Data from this procedure permit mapping axle efficiency and/or waste energy over the operating range of passenger cars, trucks, busses, and other highway vehicles.

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.

Standard

Exhaust Brake Dynamometer Test and Capability Rating Procedure

2012-07-02

CURRENT

J2458_201207

This SAE Recommended Practice has been adopted by SAE to specify: a A basis for net engine retarder power rating b Reference inlet air test conditions c A method for correcting observed engine retarder power to reference conditions d A method for determining net engine retarder power with a dynamometer

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

Engine Retarder Dynamometer Test and Capability Rating Procedure

2012-07-02

CURRENT

J1621_201207

This SAE Recommended Practice has been adopted by SAE to specify: a A basis for net engine retarder power rating b Reference inlet air test conditions c A method for correcting observed engine retarder power to reference conditions d A method for determining net engine retarder power with a dynamometer

Standard

Liquefied Natural Gas (LNG) Vehicle Metering and Dispensing Systems—Truck and Bus

2009-04-02

HISTORICAL

J2645_200904

This SAE Recommended Practice applies to Liquefied Natural Gas Vehicle Fuel. The purpose of this document is to provide information on issues that are important to consider regarding LNG metering and dispensing systems.

Standard

Liquefied Natural Gas (LNG) Vehicle Metering and Dispensing Systems - Truck and Bus

2018-02-12

CURRENT

J2645_201802

This SAE Recommended Practice applies to Liquefied Natural Gas Vehicle Fuel. The purpose of this document is to provide information on issues that are important to consider regarding LNG metering and dispensing systems.