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Standard

ASSESSING CLEANLINESS OF HYDRAULIC FLUID POWER COMPONENTS AND SYSTEMS

1979-06-01

HISTORICAL

J1227_197906

To describe laboratory methods for determining and reporting the contaminant level of the wetted portion of hydraulic fluid power components, parts, subsystems and systems, and of fill fluids. For each type of item it provides a method of obtaining the liquid sample and the contamination level thereof. It also includes procedures for establishing a sampling plan and guidelines for establishing levels of acceptance, but does not set those levels.

Standard

ASSESSING CLEANLINESS OF HYDRAULIC FLUID POWER COMPONENTS AND SYSTEMS

1986-03-01

HISTORICAL

J1227_198603

To describe laboratory methods for determining and reporting the contaminant level of the wetted portion of hydraulic fluid power components, parts, subsystems and systems, and of fill fluids. For each type of item it provides a method of obtaining the liquid sample and the contamination level thereof. It also includes procedures for establishing a sampling plan and guidelines for establishing levels of acceptace, but does not set those levels.

Standard

Assessing Cleanliness of Hydraulic Fluid Power Components and Systems

2013-02-11

HISTORICAL

J1227_201302

To describe laboratory methods for determining and reporting the contaminant level of the wetted portion of hydraulic fluid power components, parts, subsystems and systems, and of fill fluids. For each type of item it provides a method of obtaining the liquid sample and the contamination level thereof. It also includes procedures for establishing a sampling plan and guidelines for establishing levels of acceptance, but does not set those levels.

Standard

Assessing Cleanliness of Hydraulic Fluid Power Components and Systems

2019-08-29

CURRENT

J1227_201908

To describe laboratory methods for determining and reporting the contaminant level of the wetted portion of hydraulic fluid power components, parts, subsystems and systems, and of fill fluids. For each type of item, it provides a method of obtaining the liquid sample and the contamination level thereof. It also includes procedures for establishing a sampling plan and guidelines for establishing levels of acceptance, but does not set those levels.

Standard

CONTROL VALVE TEST PROCEDURE

1990-05-01

HISTORICAL

J747_199005

This SAE Standard applies to hydraulic directional control valves as applied to self-propelled work machines referenced in SAE J1116. It describes a laboratory test procedure for evaluating: a Flow versus pressure drop b Leakage rate c Operating effort d Metering characteristics versus spool travel, pilot pressure, or electrical current e Relief valve characteristics The document applies to single and multiple section hydraulic directional control valves. This document illustrates axial, manually operated valves although the test procedure is applicable to other input forms such as rotary actuation, electric current, hydraulic or pneumatic pressure. NOTE—Performance characteristics such as metering hysteresis or dynamic response may have a significant effect on some of these tests.

Standard

Control Valve Test Procedure

2017-11-27

HISTORICAL

J747_201711

This SAE Standard applies to hydraulic directional control valves as applied to self-propelled work machines referenced in SAE J1116. It describes a laboratory test procedure for evaluating: a Flow versus pressure drop b Leakage rate c Operating effort d Metering characteristics versus spool travel, pilot pressure, or electrical current e Relief valve characteristics The document applies to single and multiple section hydraulic directional control valves. This document illustrates axial, manually operated valves although the test procedure is applicable to other input forms such as rotary actuation, electric current, hydraulic or pneumatic pressure. Performance characteristics such as metering hysteresis or dynamic response may have a significant effect on some of these tests.

Standard

Control Valve Test Procedure

1974-10-01

HISTORICAL

J747B_197410

This SAE Standard applies to hydraulic directional control valves as applied to self-propelled work machines referenced in SAE J1116. It describes a laboratory test procedure for evaluating: a.) Flow versus pressure drop, b.) Leakage rate, c.) Operating effort, d.) Metering characteristics versus spool travel, pilot pressure, or electrical current, e.) Relief valve characteristics. This document applies to single and multiple section hydraulic directional control valves. This document illustrates axial, manually operated valves although the test procedure is applicable to other input forms such as rotary actuation, electric current, hydraulic or pneumatic pressure.

Standard

EXTERNAL LEAKAGE CLASSIFICATIONS FOR HYDRAULIC SYSTEMS

1986-03-01

HISTORICAL

J1176_198603

This SAE Recommended Practice establishes a uniform guide for defining the degree of external leakage on a hydraulic system. The leakage classifications include dustry and dust-free conditions. The choice of classification is intended to be by visual means rather than with the aid of instruments. It describes the leakage state at the observed time, considering that the state may change over a period of time.

Standard

EXTERNAL LEAKAGE CLASSIFICATIONS FOR HYDRAULIC SYSTEMS

1977-04-01

HISTORICAL

J1176_197704

Standard

External Leakage Classifications for Hydraulic Systems

2012-06-01

CURRENT

J1176_201206

This SAE Recommended Practice establishes a uniform guide for defining the degree of external leakage on a hydraulic system. The leakage classifications include dustry and dust-free conditions. The choice of classification is intended to be by visual means rather than with the aid of instruments. It describes the leakage state at the observed time, considering that the state may change over a period of time.

Standard

FIRE-RESISTANT FLUID USAGE IN HYDRAULIC SYSTEMS OF OFF-ROAD WORK MACHINES

1986-05-01

HISTORICAL

J1447_198605

This Information Report is intended to provide reference material for the selection and use of fire-resistant fluids in the hydraulic systems of off-road work machinery with separate hydraulic oil sump.

Standard

Fire-Resistant Fluid Usage in Hydraulic Systems of Off-Road Work Machines

2014-08-05

CURRENT

J1447_201408

This information report is intended to provide reference material for the selection and use of fire-resistant fluids in the hydraulic systems of off-road work machinery with separate hydraulic oil sump.

Standard

HYDRAULIC CONTROL VALVE TEST PROCEDURE

1986-03-01

HISTORICAL

J747_198603

This procedure describes laboratory tests for establishing operating characteristics of hydraulic directional control valves used on mobile industrial and construction equipment as referenced in SAE J1116. These characteristics are to be recorded on data sheets similar to those shown herein. Two sets of data are to be submitted--one at 122°F (50°C) and one at 194°F (90°C). A separate set of data sheets is to be submitted for the cylinder ports closest to, and farthest from the inlet and outlet ports of a multiple section valve.

Standard

HYDRAULIC CYLINDER LEAKAGE TEST

1987-06-01

HISTORICAL

J1336_198706

Applies to hydraulic cylinders which are components of self-propelled work machines defined in SAE J1116.

Standard

HYDRAULIC CYLINDER NO-LOAD FRICTION TEST

1990-04-01

HISTORICAL

J1335_199004

Applies to hydraulic cylinders, which are components of self-propelled work machines defined in SAE J1116.

Standard

HYDRAULIC CYLINDER ROD CORROSION TEST

1990-03-01

HISTORICAL

J1333_199003

Applies to hydraulic cylinders which are components of self-propelled work machines defined in SAE J1116.

Standard

HYDRAULIC CYLINDER ROD SEAL ENDURANCE TEST PROCEDURE

1985-05-01

HISTORICAL

J1374_198505

Applies to hydraulic seals used to seal the rod of hydraulic cylinders which are components of self-propelled work machines defined in SAE J1116.

Standard

HYDRAULIC CYLINDER TEST PROCEDURE

2003-06-18

CURRENT

J214_200306

This test procedure describes tests for determining characteristics of hydraulic cylinders as used on construction and industrial mobile machinery as referenced in SAE J1116. In this code, metric equivalents are established according to SAE J916. These characteristics are to be recorded on data sheets similar to the ones shown herein. Two sets of data sheets are to be submitted for each cylinder, one set at 120 °F (49 °C) and one at 180 °F (82 °C).

Standard

HYDRAULIC DIRECTIONAL CONTROL VALVES, 3000 PSI MAXIMUM

2008-05-20

HISTORICAL

J748_200805

This SAE Recommended Practice has been set up by Subcommittee 4 of the Off-Road Machinery Technical Committee and is primarily for directional control valves on construction and industrial machinery equipment as referenced in SAE J1116. The purpose is to establish port area to flow relationship and match valve spool eye ends in relation to rated capacity. Port connections are optional for either the 4-bolt split flange connection or the internal straight thread "O" ring connection.

Standard

HYDRAULIC DIRECTIONAL CONTROL VALVES, 3000 PSI MAXIMUM

1986-03-01

HISTORICAL

J748_198603

This SAE Recommended Practice has been set up by Subcommittee 4 of the Off-Road Machinery Technical Committee and is primarily for directional control valves on construction and industrial machinery equipment as referenced in SAE J1116. The purpose is to establish port area to flow relationship and match valve spool eye ends in relation to rated capacity. Port connections are optional for either the 4-bolt split flange connection or the internal straight thread "O" ring connection.