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Standard

Brazed Double Wall Low-Carbon Steel Tubing

1991-06-01
HISTORICAL
J527_199106
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Brazed Double Wall Low-Carbon Steel Tubing

1990-06-01
HISTORICAL
J527_199006
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Brazed Double Wall Low-Carbon Steel Tubing

2000-11-28
HISTORICAL
J527_200011
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Brazed Double Wall Low-Carbon Steel Tubing

2013-06-12
HISTORICAL
J527_201306
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Brazed Double Wall Low-Carbon Steel Tubing

2017-10-25
CURRENT
J527_201710
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Brazed Double Wall Low-Carbon Steel Tubing

1983-01-01
HISTORICAL
J527_198301
This SAE Standard covers brazed double wall low-carbon steel tubing intended for general automotive, refrigeration, hydraulic, and other similar applications requiring tubing of a suitable quality for bending, flaring, beading, forming, and brazing.
Standard

Carbon Steel Tubing for General Use - Understanding Nondestructive Testing for Carbon Steel Tubing

2013-05-14
HISTORICAL
J2592_201305
This SAE information report provides a means to understand the various methods of evaluating the integrity of steel tubing without the need of destroying the tubing. This report describes eddy current testing, flux leakage testing, ultrasonic testing, and magnetic particle testing of steel tubing. The primary purpose of these methods of testing steel tubing is to look for flaws in the tubing, such as discontinuities, seams, cracks, holes, voids and other imperfections characteristic to the specific construction of the tubing.
Standard

Carbon Steel Tubing for General Use Understanding Nondestructive Testing for Carbon Steel Tubing

2019-01-04
CURRENT
J2592_201901
This Information Report describes eddy current testing, flux leakage testing, ultrasonic testing, and magnetic particle testing of steel tubing. The purpose of these testing methods is to expose flaws in the tube material or weld zone, such as discontinuities, seams, cracks, holes, voids, and other imperfections characteristic to the specific construction of the tubing. When agreed upon between the producer and purchaser, nondestructive testing is used in lieu of destructive hydrostatic pressure proof testing. Aircraft and Aerospace applications were not considered during the preparation of this document.
Standard

Fuel Injection Tubing

2013-12-17
CURRENT
J529_201312
This standard covers tubing intended for use as high pressure fuel injection lines on a range of engines requiring tubing no larger than ¼ in (6.35 mm) OD. The material and construction of the tubing shall be cold drawn annealed low carbon seamless steel of a quality suitable for cold swaging, cold upsetting, and cold bending.
Standard

High Strength, 304/304L Stainless Steel Tubing

2019-10-14
CURRENT
J3135_201910
This SAE standard covers both “welded and cold drawn” and “seamless” stainless steel pressure tubing in the as-cold-drawn high strength condition intended for use as high pressure hydraulic lines and other applications requiring corrosion resistance. Welding, brazing, or other thermal processing methods that subject the tube material or assembly to elevated temperatures may compromise the strength of the tubing.
Standard

Nominal Reference Working Pressures for Steel Hydraulic Tubing

2009-09-28
HISTORICAL
J1065_200909
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 and ISO standards listed in the reference section.
Standard

Nominal Reference Working Pressures for Steel Hydraulic Tubing

2016-05-20
CURRENT
J1065_201605
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 and ISO standards listed in the reference section.
Standard

Recommended Practices for Fluid Conductor Carbon, Alloy and High Strength Low Alloy Steel Tubing Applications - Part 3: Procurement

2019-05-06
WIP
J2551/3

1.1 Purpose

SAE J2551-3 recommended practice provides recommendations for a procurement process for carbon, alloy and high strength low alloy steel tube assemblies for fluid power applications utilizing commonly available manufacturing methods and general guidelines for tube selection and application.

1.2 Field of Application

These recommended practices are intended for general application and hydraulic systems on industrial equipment and commercial products. Aircraft and Aerospace applications were not considered during the preparation of this document. Since many factors influence the pressure at which a hydraulic system will perform satisfactorily, these recommended practices should not be construed as guaranteed minimums. For any application, sufficient testing should be conducted and reviewed by both the user and supplier to ensure that required performance levels are met.

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