SAE J2592_201305
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
View Superseded by
Carbon Steel Tubing for General Use - Understanding Nondestructive Testing for Carbon Steel Tubing
Hardcopy , PDF
29-09-2020
English
14-05-2013
Important note : Users cannot be edited or removed once added to your Multi user PDF.
1. SCOPE
2. REFERENCES
3. TYPES OF NONDESTRUCTIVE TESTING
4. TEST PROCEDURES
5. REFERENCE STANDARDS (KNOWN ACCEPTABLE MATERIAL SAMPLES)
6. CALIBRATION
7. NOTES
Specifies a means to understand the various methods of evaluating the integrity of steel tubing without the need of destroying the tubing.
| DocumentType |
Standard
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| Pages |
9
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| PublisherName |
SAE International
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| Status |
Superseded
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| SupersededBy | |
| Supersedes |
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.
| SAE J2551/2_201302 | Recommended Practices for Fluid Conductor Carbon, Alloy and High Strength Low Alloy Steel Tubing Applications-Part 2: General Specifications and Performance Requirements |
| SAE J2551/3_201302 | Recommended Practices for Fluid Conductor Carbon, Alloy and High Strength Low Alloy Steel Tubing Applications - Part 3: Procurement |
| SAE J1065_201605 | Nominal Reference Working Pressures for Steel Hydraulic Tubing |
| SAE J524_201607 | Seamless Low-Carbon Steel Tubing Annealed for Bending and Flaring |
| SAE J2467_201506 | Welded and Cold-Drawn, SAE 1021 Carbon Steel Tubing Normalized for Bending and Flaring |
| SAE J525_201609 | Welded and Cold Drawn Low-Carbon Steel Tubing Annealed for Bending and Flaring |
| SAE J2435_201508 | Welded Flash Controlled, SAE 1021 Carbon Steel Tubing, Normalized for Cold Forming, Welding and Brazing |
| SAE J1383_201005 | Performance Requirements for Motor Vehicle Headlamps |
| SAE J2551/1_201302 | Recommended Practices for Fluid Conductor Carbon, Alloy and High Strength Low Alloy Steel Tubing Applications-Part 1: Design and Fabrication |
| SAE J2467_202005 | Welded and Cold-Drawn, SAE 1021 Carbon Steel Tubing Normalized for Bending, Single Flaring, Cold Forming, Welding, and Brazing |
| SAE J2551_201309 | Recommended Practices for Fluid Conductor Carbon and Alloy Steel Tubing Applications |
| SAE J1677_201612 | Tests and Procedures for Carbon Steel and High Strength Low Alloy Steel Tubing |
| SAE J428_199103 | ULTRASONIC INSPECTION |
| ASTM A 847 : 1999 : REV A : R2003 | Standard Specification for Cold-Formed Welded and Seamless High Strength, Low Alloy Structural Tubing with Improved Atmospheric Corrosion Resistance |
| ASTM E 309 : 2016 : REDLINE | Standard Practice for Eddy Current Examination of Steel Tubular Products Using Magnetic Saturation |
| SAE J2658_201309 | Carbon and Steel Alloy Tube Conductor Assemblies for Fluid Power and General Use - Test Methods for Hydraulic Fluid Power Metallic Tube Assemblies |
| SAE J425_199103 | ELECTROMAGNETIC TESTING BY EDDY CURRENT METHODS |
| SAE J420_199103 | MAGNETIC PARTICLE INSPECTION |
| ASTM E 273 : 2015 : REDLINE | Standard Practice for Ultrasonic Testing of the Weld Zone of Welded Pipe and Tubing |
| EN 10305-2:2016 | Steel tubes for precision applications - Technical delivery conditions - Part 2: Welded cold drawn tubes |
| ASTM A 254 : 1997 | Standard Specification for Copper-Brazed Steel Tubing |
| ISO 3305:1985 | Plain end welded precision steel tubes — Technical conditions for delivery |
| SAE J356_201312 | Welded Flash-Controlled Low-Carbon Steel Tubing Normalized for Bending, Double Flaring, and Beading |
| EN 10305-4:2016 | Steel tubes for precision applications - Technical delivery conditions - Part 4: Seamless cold drawn tubes for hydraulic and pneumatic power systems |
| SAE J2614_200909 | Welded and Cold-Drawn, High Strength (500 MPa Tensile Strength) Low Alloy Steel Hydraulic Tubing, Sub-Critically Annealed for Bending and Flaring |
| SAE J2435_201508 | Welded Flash Controlled, SAE 1021 Carbon Steel Tubing, Normalized for Cold Forming, Welding and Brazing |
| ASTM A 539 : 1999 | Standard Specification for Electric-Resistance-Welded Coiled Steel Tubing for Gas and Fuel Oil Lines (Withdrawn 2004) |
| SAE J526_201611 | Welded Low-Carbon Steel Tubing Suitable for Bending, Flaring, Beading, Forming and Brazing |
| SAE J527_201306 | Brazed Double Wall Low-Carbon Steel Tubing |
| SAE J2551_201309 | Recommended Practices for Fluid Conductor Carbon and Alloy Steel Tubing Applications |
| ISO 3304:1985 | Plain end seamless precision steel tubes — Technical conditions for delivery |
| SAE J525_201609 | Welded and Cold Drawn Low-Carbon Steel Tubing Annealed for Bending and Flaring |
| SAE J1677_201612 | Tests and Procedures for Carbon Steel and High Strength Low Alloy Steel Tubing |
| SAE J524_201607 | Seamless Low-Carbon Steel Tubing Annealed for Bending and Flaring |
| ISO 10763:1994 | Hydraulic fluid power Plain-end, seamless and welded precision steel tubes Dimensions and nominal working pressures |
| ASTM A 822 : 1990 : R2000 | Standard Specification for Seamless Cold-Drawn Carbon Steel Tubing for Hydraulic System Service |
| SAE J2467_201506 | Welded and Cold-Drawn, SAE 1021 Carbon Steel Tubing Normalized for Bending and Flaring |
| ISO 8434:1986 | Hydraulic fluid power Connection for tubes and hoses Dimensions and designs for 37 degrees flare and 24 degrees flareless fittings |
| SAE J358_199102 | NONDESTRUCTIVE TESTS |
| SAE J2613_200909 | Welded Flash Controlled, High Strength (500 MPa Tensile Strength) Low Alloy Steel Hydraulic Tubing, Sub-Critically Annealed for Bending, Double Flaring, and Bending |
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