(R) Nominal Reference Working Pressures for Steel Hydraulic Tubing
|Publication Date:||1 February 2003|
This SAE Information Report is intended to provide design guidance in the selection of steel tubing and related tube fittings for general hydraulic system applications. The information presented herein is based on tubing products which conform to SAE standards listed in the reference section.
Purpose - The purpose of this document is to provide nominal reference working pressures for selecting tube material, OD size and wall thickness for given hydraulic system working pressures based on desired 4 to 1 design factor of the applicable burst pressure rating.
Information Report - Since many factors influence the pressure at which a hydraulic system will or will not perform satisfactorily, this document should not be used as a "standard" nor a "specification," and the values shown herein should not be construed as "guaranteed" minimum or absolutes. This document is an information report only. See SAE J2551 for information concerning designing, bending, fabrication and routing of fluid conductor metallic tube assemblies.
Minimum Tensile Strength - Within the fluid power industry, many criteria are used for determining the pressure capability of steel tubing. In this document, consideration is given to specified minimum tensile strength of the materials to calculate the nominal minimum burst pressure of the specified steel tubing. The actual tensile strength of the material can be easily determined by common methods of testing.
Straight Tube Sections - The nominal reference working pressures listed in this document are for straight tube sections of the listed tubing materials only. Factors such as the thinning of tube walls due to forming operations, shock loads, and vibration characteristics of the system should also be considered when designing all hydraulic tubes and tube assemblies, especially in high pressure applications.
Operating at 100% of the Reference Working Pressures - When designing systems that operate at 100% of the charted reference working pressure, in conjunction with the materials being subjected to bending, cold forming, wall thinning, brazing, welding, side loads, shock loads and extreme vibrations, the maximum yield strength of the material may be compromised and may cause premature failure of the tube material. Therefore, a good recommended practice is to design hydraulic systems to operate at a level less than the calculated maximum reference working pressures of the materials used. This diminished level may vary from application to application, depending on the operating conditions, pressure spikes and designer discretion, 90% is commonly used.
Endurance Testing - It is impractical to specify in this report guaranteed allowable working pressures that will satisfy all design criteria for every hydraulic system. Therefore, endurance testing in accordance with SAE J343 and/or ISO 6605 is recommended.