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crack test
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in Evaluation of Stress-Corrosion Cracking[1]
> Stress-Corrosion Cracking<subtitle>Materials Performance and Evaluation</subtitle>
Published: 01 January 2017
Fig. 17.22 Stress-corrosion cracking test specimens containing residual stresses from plastic deformation. (a) Cracked cup specimen (Ericksen impression). Source: Ref 17.4 . (b) Joggled extrusion containing SCC in the plastically deformed region. Source: Ref 17.9
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in Evaluation of Stress-Corrosion Cracking[1]
> Stress-Corrosion Cracking<subtitle>Materials Performance and Evaluation</subtitle>
Published: 01 January 2017
Fig. 17.23 Stress-corrosion cracking test specimens containing residual stresses from plastic deformation. Shown are 12.7 mm (0.5 in.) diameter stainless tubular specimens after SCC testing. (a) and (b) Annealed tubing that was cold formed before testing. (c) Cold worked tubing tested
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in Evaluation of Stress-Corrosion Cracking[1]
> Stress-Corrosion Cracking<subtitle>Materials Performance and Evaluation</subtitle>
Published: 01 January 2017
Fig. 17.24 Stress-corrosion cracking test specimen containing residual stresses from welding. (a) Sandwich specimen simulating rigid structure. Note SCC in edges of center plate. Source: Ref 17.10 . (b) Cracked ring-weld specimen. Source: Ref 17.4
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Published: 01 July 1997
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Published: 01 July 1997
Fig. 2 Circular-groove specimens used in weld-cracking tests. (a) Configuration and dimensions (given in inches). Specimens A to Care 3.5% Ni steel test specimens that were shielded metal arc welded with low-hydrogen coated electrodes (E6015) that were exposed to welding-room air for different
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Published: 01 December 2003
Fig. 11 Environmental stress-crack testing in polyethylene in relation to the yield point. Source: Ref 40
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Published: 01 December 2004
Fig. 17 Boeing wedge test (ASTM D 3762). (a) Test specimen. (b) Typical crack propagation behavior at 49 °C (120 °F) and 100% relative humidity. a , distance from load point to initial crack tip; Δ a , growth during exposure. Source: Ref 4
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Published: 01 October 2011
Fig. 7.26 Liquid penetrant test for surface cracks. (a) An open crack draws in penetrant liquid by capillary action. (b) Excess surface penetrant is removed. (c) Developer draws out penetrant liquid and forms a visible indication of the surface crack.
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Published: 01 November 2012
Fig. 5 Destructive inspection with proof test. (a) Crack growth. (b) Detection of cracks equal to or greater than proof size. (c) Lower proof load with cooling. RT, room temperature. Source: Ref 1
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Published: 01 November 2010
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Published: 01 July 1997
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Published: 01 July 1997
Fig. 13 Macrograph of the fracture surface of a crack tip opening displacement test specimen removed from the 1.07 m (42 in.) X-65 steel pipe. The regions of the surface shown correspond with the notch, precrack, stable crack growth, fast fracture, and overload zones.
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Published: 01 July 1997
Fig. 2 Maximum crack length data obtained from varestraint test for alloy 625 weldability study
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Published: 01 August 2005
Fig. A4.3 Comparison of fatigue crack initiation test data and LOOPIN 8 prediction using the uncut spectra. Source: Ref A4.6
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Published: 01 August 2005
Fig. A4.4 Comparison of fatigue crack initiation test data and LOOPIN 8 prediction using the post -RACETRAK spectra (DMIN = 0.25). Source: Ref A4.6
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Published: 01 August 2005
Fig. A4.5 Comparison of fatigue crack initiation test data and LOOPIN 8 prediction using the post -RACETRAK spectra (DMIN = 0.50). Source: Ref A4.6
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 July 1997
DOI: 10.31399/asm.tb.wip.t65930023
EISBN: 978-1-62708-359-1
... Abstract This article describes the weldability tests that are used to evaluate the effects of welding on such properties and characteristics as base-metal and weld-metal cracking; base-metal and weld-metal ductility; weld penetration; and weld pool shape and fluid flow. It also describes...
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Published: 01 December 2001
Fig. 7 Stress-corrosion cracking behavior of AZ91 in distilled water. Stress-corrosion cracking tests on standard ASTM B 577 die-cast tensile specimens were conducted on a dead-weight tension-loading apparatus. Source: Ref 11
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Published: 01 December 2015
Fig. 1 Schematic of a typical time to failure as a function of initially applied stress for smooth sample stress-corrosion cracking tests
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 July 2000
DOI: 10.31399/asm.tb.fec.t65940451
EISBN: 978-1-62708-302-7
..., Test Method for Coulometric Reduction of Surface Films on Metallic Test Samples • B 826, Test Method for Monitoring Atmospheric Corrosion Tests by Electrical Resistance Probes • C 692, Method of Evaluating the Influence of Wicking-Type Thermal Insulations on the Stress Corrosion Cracking...
