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Standard

Defining Hydraulic Oil Compatibility with Hydraulic Hose Elastomers

2006-03-27

HISTORICAL

J2631_200603

This SAE Information Report is intended to provide the hydraulic oil manufacturer and hydraulic equipment manufacturer with information that can be used predicting the relative impact that non petroleum based hydraulic oils may have on the hose elastomers in the existing system. This document contains the information necessary to perform the tests using standard elastomer formulations, representative of material used in hydraulic hose. The test methods used are defined within ASTM D471, standard test method for Rubber Property—Effect of Liquids. The physical properties measured, are volume swell, tensile strength, percent elongation, shore A hardness and load at 100% elongation. The properties were measured, after immersion, at 72 hours, 168 hours, 336 hours, 504 hours, 672 hours, 840 hours, and 1008 hours and the percent calculated as change from the unaged properties. The detail of the testing process is described in the following report.

Standard

Defining Hydraulic Oil Compatibility with Hydraulic Hose Elastomers

2011-10-25

CURRENT

J2631_201110

This SAE Information Report is intended to provide the hydraulic oil manufacturer and hydraulic equipment manufacturer with information that can be used predicting the relative impact that non petroleum based hydraulic oils may have on the hose elastomers in the existing system. This document contains the information necessary to perform the tests using standard elastomer formulations, representative of material used in hydraulic hose. The test methods used are defined within ASTM D471, standard test method for Rubber Property—Effect of Liquids. The physical properties measured, are volume swell, tensile strength, percent elongation, shore A hardness and load at 100% elongation. The properties were measured, after immersion, at 72 hours, 168 hours, 336 hours, 504 hours, 672 hours, 840 hours, and 1008 hours and the percent calculated as change from the unaged properties. The detail of the testing process is described in the following report.

Standard

Hydraulic Hose Fitting for Marine Applications

2014-06-05

CURRENT

J1475_201406

This SAE Standard covers general and performance specifications for hydraulic hose fittings of the styles, types, and classes defined in Section 3 and used in conjunction with nonmetallic flexible hoses for marine applications. This document does not ensure compatibility between manufacturers of hydraulic hose and hydraulic hose fittings. Compatibility is the responsibility of the hydraulic hose assembly manufacturer.

Standard

Hydraulic Hose Fitting for Marine Applications

2009-09-28

HISTORICAL

J1475_200909

This SAE Standard covers general and performance specifications for hydraulic hose fittings of the styles, types, and classes defined in Section 3 and used in conjunction with nonmetallic flexible hoses for marine applications. This document does not ensure compatibility between manufacturers of hydraulic hose and hydraulic hose fittings. Compatibility is the responsibility of the hydraulic hose assembly manufacturer.

Standard

Hydraulic Hose Fitting for Marine Applications

2004-02-23

HISTORICAL

J1475_200402

This SAE Standard covers general and performance specifications for hydraulic hose fittings of the styles, types, and classes defined in Section 3 and used in conjunction with nonmetallic flexible hoses for marine applications. This document does not ensure compatibility between manufacturers of hydraulic hose and hydraulic hose fittings. Compatibility is the responsibility of the hydraulic hose assembly manufacturer.

Standard

HYDRAULIC HOSE FITTINGS FOR MARINE APPLICATIONS

1993-07-01

HISTORICAL

J1475_199307

This SAE Standard covers general and performance specifications for hydraulic hose fittings of the styles, types, and classes defined in 2.2 and used in conjunction with nonmetallic flexible hose used in marine applications. In addition to the requirements of this document, the hose fittings shall meet the general and dimensional requirements of SAE J516. Other styles, types, and classes of fittings may be used provided they meet the general requirements of Sections 3 through 9. Four-bolt split flange type clamp halves are not within the scope of this document and are covered under SAE J518. This document does not insure compatibility between manufacturers of hydraulic hose and hydraulic hose fittings. Compatibility is the responsibility of the hydraulic hose assembly manufacturer.

Standard

HYDRAULIC HOSE FITTING FOR MARINE APPLICATIONS

1996-06-01

HISTORICAL

J1475_199606

This SAE Standard covers general and performance specifications for hydraulic hose fittings of the styles, types, and classes defined in Section 3 and used in conjunction with nonmetallic flexible hoses for marine applications. This document does not ensure compatibility between manufacturers of hydraulic hose and hydraulic hose fittings. Compatibility is the responsibility of the hydraulic hose assembly manufacturer.

Standard

CUMULATIVE DAMAGE ANALYSIS FOR HYDRAULIC HOSE ASSEMBLIES

1988-10-01

HISTORICAL

J1927_198810

Standard

Cumulative Damage Analysis for Hydraulic Hose Assemblies

2009-03-27

HISTORICAL

J1927_200903

This SAE Information Report is intended to provide the hydraulic system analyst with a procedure which will assist in the selection and use of high-pressure wire reinforced hydraulic hose assemblies. Many construction, agricultural, industrial, or commercial equipment systems utilize hydraulic hose assemblies that are subjected to irregular cyclic pressure variations (cannot be approximated by a constant amplitude pressure cycle). This document relates damage done by pressure cycles with the pressure-life performance curve for the hose assembly being evaluated, using a linear damage rule to predict fatigue life similar to that used for predicting metal fatigue life. More detailed information on the subject may be found in SAE Paper No. 880713. The accuracy of cumulative damage calculations is directly related to proper measurement of the service pressure history and pressure-life performance for the hose assembly being evaluated.

Standard

Cumulative Damage Analysis for Hydraulic Hose Assemblies

2001-03-14

HISTORICAL

J1927_200103

This SAE Information Report is intended to provide the hydraulic system analyst with a procedure which will assist in the selection and use of high-pressure wire reinforced hydraulic hose assemblies. Many construction, agricultural, industrial, or commercial equipment systems utilize hydraulic hose assemblies that are subjected to irregular cyclic pressure variations (cannot be approximated by a constant amplitude pressure cycle). This document relates damage done by pressure cycles with the pressure-life performance curve for the hose assembly being evaluated, using a linear damage rule to predict fatigue life similar to that used for predicting metal fatigue life. More detailed information on the subject may be found in SAE Paper No. 880713. The accuracy of cumulative damage calculations is directly related to proper measurement of the service pressure history and pressure-life performance for the hose assembly being evaluated.

Standard

Cumulative Damage Analysis for Hydraulic Hose Assemblies

2014-06-04

CURRENT

J1927_201406

This SAE Information Report is intended to provide the hydraulic system analyst with a procedure which will assist in the selection and use of high-pressure wire reinforced hydraulic hose assemblies. Many construction, agricultural, industrial, or commercial equipment systems utilize hydraulic hose assemblies that are subjected to irregular cyclic pressure variations (cannot be approximated by a constant amplitude pressure cycle). This document relates damage done by pressure cycles with the pressure-life performance curve for the hose assembly being evaluated, using a linear damage rule to predict fatigue life similar to that used for predicting metal fatigue life. More detailed information on the subject may be found in SAE Paper No. 880713. The accuracy of cumulative damage calculations is directly related to proper measurement of the service pressure history and pressure-life performance for the hose assembly being evaluated.

Standard

SELECTION, INSTALLATION, AND MAINTENANCE OF HOSE AND HOSE ASSEMBLIES

1979-09-01

HISTORICAL

J1273_197909

Hose (also includes hose assemblies) has a finite life and there are a number of factors which will reduce its life. This recommended practice is intended as a guide to assist system designers and/or users in the selection, installation, and maintenance of hose. The designers and users must make a systematic review of each application and then select, install, and maintain the hose to fulfill the requirements of the application. The following are general guidelines and are not necessarily a complete list. WARNING: IMPROPER SELECTION, INSTALLATION, OR MAINTENANCE MAY RESULT IN PREMATURE FAILURES, BODILY INJURY, OR PROPERTY DAMAGE.

Standard

SELECTION, INSTALLATION, AND MAINTENANCE OF HOSE AND HOSE ASSEMBLIES

1991-11-27

HISTORICAL

J1273_199111

Hose (also includes hose assemblies) has a finite life and there are a number of factors which will reduce its life. This SAE Recommended Practice is intended as a guide to assist system designers and/or users in the selection, installation, and maintenance of hose. The designers and users must make a systematic review of each application and then select, install, and maintain the hose to fulfill the requirements of the application. The following are general guidelines and are not necessarily a complete list.

Standard

SELECTION, INSTALLATION, AND MAINTENANCE OF HOSE AND HOSE ASSEMBLIES

1986-05-01

HISTORICAL

J1273_198605

Hose (also includes hose assemblies) has a finite life and there are a number of factors which will reduce its life. This recommended practice is intended as a guide to assist system designers and/or users in the selection, installation, and maintenance of hose. The designers and users must make a systematic review of each application and then select, install, and maintain the hose to fulfill the requirements of the application. The following are general guidelines and are not necessarily a complete list.

Standard

Automotive Air Brake Hose and Hose Assemblies

2017-10-12

CURRENT

J1402_201710

This recommended practice covers minimum requirements for air brake hose assemblies made from reinforced elastomeric hose and suitable fittings for use in automotive air brake systems including flexible connections from frame to axle, tractor to trailer, trailer to trailer and other unshielded air lines with air pressures up to 1 MPa, that are exposed to potential pull or impact. This hose is not to be used where temperatures, external or internal, fall outside the range of -40 to +100 °C.

Standard

Automotive Air Brake Hose and Hose Assemblies

2010-08-05

HISTORICAL

J1402_201008

This recommended practice covers minimum requirements for air brake hose assemblies made from reinforced elastomeric hose and suitable fittings for use in automotive air brake systems including flexible connections from frame to axle, tractor to trailer, trailer to trailer and other unshielded air lines with air pressures up to 1 MPa, that are exposed to potential pull or impact. This hose is not to be used where temperatures, external or internal, fall outside the range of -40 to +100 °C.

Standard

AIR BRAKE HOSE

1970-01-01

HISTORICAL

J1402B_197001

This specification covers seven types of air hose intended for use in automotive air brake systems. The system includes all air actuated equipment leading from the air brake line. These types of hose are not to be used from the air compressor to air reservoir if air temperature is in excess of 250 F. Type G hose is to be used in frame and cab piping only, and only where air temperature is not in excess of 200 F. The types of hose are as follows: Type A–Hose shall be mandrel built having a tube and friction of oil resisting rubber, reinforced with cotton or synthetic cord or duck plies or a combination of both, and a cover of oil resisting compounds utilizing polymerized chloroprene as the basic material. Assemble with reusable or permanent type metal end fittings.

Standard

Optional Test Procedures for Hydraulic Hose Assemblies

2017-01-04

HISTORICAL

J1405_201701

The procedures contained in this SAE Recommended Practice have been developed to establish uniform methods for impulse and high temperature circulation testing of hydraulic hose assemblies under special conditions not specified in SAE J343 for SAE J517 hoses.Basic test procedures are to be in accordance with SAE J343 except as modified in this document.

Standard

Optional Test Procedures for Hydraulic Hose Assemblies

2012-05-08

HISTORICAL

J1405_201205

The procedures contained in this SAE Recommended Practice have been developed to establish uniform methods for impulse and high temperature circulation testing of hydraulic hose assemblies under special conditions not specified in SAE J343 for SAE J517 hoses.Basic test procedures are to be in accordance with SAE J343 except as modified in this document.

Standard

HYDRAULIC FLANGED TUBE, PIPE, AND HOSE CONNECTIONS, FOUR-BOLT SPLIT FLANGE TYPE

1991-04-01

HISTORICAL

J518_199104

This SAE Standard covers complete general and dimensional specifications for the flanged heads and split flange clamp halves applicable to four-bolt split flange type tube, pipe, and hose connections with appropriate references to the O-ring seals and attaching components used in their assembly. (See Figures 1 and 2.) Also included are recommended port dimensions and port design considerations. The flanged heads specified are incorporated into fittings having suitable means for attachment to tubes, pipes, or hoses to provide connection ends. These connections are intended for application in hydraulic systems, on industrial and commercial products, where it is desired to avoid the use of threaded connections. Flanged heads shall be as specified in Figure 3 and Table 1. Split flange clamp halves shall be as specified in Figure 4 and Table 1. Port dimensions and spacing shall be as specified in Figure 5 and Table 2.