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Standard

Fasteners - Part Standard - Cap Screws, Hex Bolts, and Hex Nuts (Metric)

2019-05-10

CURRENT

J2295M_201905

This SAE Part Standard covers selected metric screws, hex bolts, and nuts manufactured in accordance with American Society for Testing and Materials (ASTM) and SAE fastener standards. This document covers fastener materials often used in ship systems and equipment but its use may be applied wherever fasteners of the covered materials are used. This document permits the fasteners to be identified and ordered by a part or identifying number (PIN) as defined in this document.

Standard

Fasteners—Part Standard—Cap Screws, Hex Bolts, and Hex Nuts (Metric)

2006-06-21

HISTORICAL

J2295M_200606

This SAE Part Standard covers selected metric screws, hex bolts, and nuts manufactured in accordance with American Society for Testing and Materials (ASTM) and SAE fastener standards. This document covers fastener materials often used in ship systems and equipment but its use may be applied wherever fasteners of the covered materials are used. This document permits the fasteners to be identified and ordered by a part or identifying number (PIN) as defined in this document.

Standard

GENERAL ENVIRONMENTAL CONSIDERATIONS FOR MARINE VEHICLES

1990-12-01

CURRENT

J1777_199012

This Hydrospace Information Report (HIR) identifies the general environmental considerations for the design, development, evaluation, and testing of advanced surface craft, submersible vehicles, and other marine craft. This HIR provides criteria on the environmental limits within which marine vehicles, related components, and associated equipment should operate satisfactorily and reliably.

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

MINIMUM PERFORMANCE CRITERIA FOR BRAKING SYSTEMS FOR SELF-PROPELLED, SMOOTH STEEL WHEEL, PNEUMATIC TIRED OR MULTIPLE PROJECTION STEEL WHEEL ROLLERS AND COMPACTORS

1976-04-01

HISTORICAL

J1136_197604

Minimum performance criteria for service braking systems, emergency stopping systems, and parking systems for all self-propelled vibratory and static weight smooth steel wheel, pneumatic tired or multiple projection steel wheel rollers and compactors are provided in this S.A.E. recommended practice.

Standard

Lighting and Marking of Agricultural Equipment on Highways

1989-06-01

CURRENT

J137_198906

To provide specifications for lighting and marking of agricultural equipment whenever such equipment is operated or traveling on a highway.

Standard

USE OF TERMS YIELD STRENGTH AND YIELD POINT

1991-06-01

HISTORICAL

J450_199106

The purpose of this SAE Recommended Practice is to describe the terms yield strength and yield point. Included are definitions for both terms and recommendations for their use and application.

Standard

USE OF TERMS YIELD STRENGTH AND YIELD POINT

1984-06-01

HISTORICAL

J450_198406

Standard

TON-MILE PER HOUR TEST PROCEDURE

1974-03-01

HISTORICAL

J1015_197403

The TMPH rating defines another factor for evaluating the performance capability of off-the-road tires. The TMPH rating is a measure of work per unit time and as such is intended to supplement information published by tire industry standards associations and by tire manufacturers.

Standard

TON-MILE PER HOUR TEST PROCEDURE

1977-06-01

HISTORICAL

J1015_197706

The TMPH rating defines another factor for evaluating the performance capability of off-the-road tires. The TMPH rating is a measure of work per unit time and as such is intended to supplement information published by tire industry standards associations and by tire manufacturers.

Standard

TON-MILE PER HOUR TEST PROCEDURE

1983-12-01

HISTORICAL

J1015_198312

The TMPH rating defines another factor for evaluating the performance capability of off-the-road tires. The TMPH rating is a measure of work per unit time and as such is intended to supplement information published by tire industry standards associations and by tire manufacturers.

Standard

COMPONENT NOMENCLATURE—TOWING WINCH

1977-06-01

HISTORICAL

J1014_197706

Standard

NOMENCLATURE—ROLLERS AND COMPACTORS

1986-01-01

HISTORICAL

J1017_198601

This SAE Standard provides names of major components peculiar to rollers and compactors. Illustrations of components are not intended to be exactly descriptive of any particular machine. See Figures 1 to 3.)

Standard

PERFORMANCE CRITERIA FOR FOPS ON GENERAL PURPOSE INDUSTRIAL MACHINES

1985-04-01

HISTORICAL

J1043_198504

This standard applies to General Purpose Industrial Machines, as described in SAE J1116, which are equipped with Rollover Protective Structures (ROPS).

Standard

VOLTAGES FOR DIESEL ELECTRICAL SYSTEMS

1976-09-01

HISTORICAL

J539A_197609

Standard

TAPPED AND FLANGED EXHAUST CONNECTIONS FOR SMALL ENGINES

1984-06-01

HISTORICAL

J624_198406

This recommended practice applies to domestic four-cycle air- and water-cooled engines having a maximum of 20 hp (14.9 kW) or less in power output and/or 50 in3 (0.82 L) or less in displacement, with horizontal or vertical crankshafts.

Standard

TAPPED AND FLANGED EXHAUST CONNECTIONS FOR SMALL ENGINES

1989-09-01

HISTORICAL

J624_198909

This SAE Recommended Practice applies to domestic four-cycle air- and water-cooled engines having a maximum of 20 hp (14.9 kW) or less in power output and/or 50 in3 (0.82 L) or less in displacement, with horizontal or vertical crankshafts.

Standard

INTERNAL COMBUSTION ENGINES—PISTON RINGS—MATERIAL SPECIFICATIONS

1992-10-01

HISTORICAL

J1590_199210

Differences, where they exist, are shown in Appendix A. This SAE Standard establishes a classification of materials intended for the manufacture of piston rings based on mechanical properties and the stresses that these materials are capable of withstanding. This document applies to the manufacture of piston rings up to and including 200 mm diameter for reciprocating internal combustion engines. It also applies to piston rings for compressors working under similar conditions.

Standard

Steel Products for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS)

2008-04-14

HISTORICAL

J1119_200804

The purpose of this SAE Information Report is to provide concepts for rational selection and application of materials for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS) and to provide information about the properties that should be considered in selecting and utilizing material in protective structures. While other materials could conceivably be used successfully, this report is limited to a consideration of steel with discussion on its mechanical properties and processing characteristics. Emphasis is placed on the toughness aspect (ability to resist brittle fracture) as this property is of paramount importance to structure integrity. It is emphasized that specific values for material properties have relevance to performance only in conjunction with specific design considerations such as structure size or weld joint detail and location.

Standard

Steel Products for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS)

2002-09-20

HISTORICAL

J1119_200209

The purpose of this SAE Information Report is to provide concepts for rational selection and application of materials for Rollover Protective Structures (ROPS) and Falling Object Protective Structures (FOPS) and to provide information about the properties that should be considered in selecting and utilizing material in protective structures. While other materials could conceivably be used successfully, this report is limited to a consideration of steel with discussion on its mechanical properties and processing characteristics. Emphasis is placed on the toughness aspect (ability to resist brittle fracture) as this property is of paramount importance to structure integrity. It is emphasized that specific values for material properties have relevance to performance only in conjunction with specific design considerations such as structure size or weld joint detail and location.