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Cracks revealed by visible dye penetrant testing on 304L and weld overlay (...

in Corrosion in the Pulp and Paper Industry[1] > Corrosion: Environments and Industries
Published: 01 January 2006
Fig. 33 Cracks revealed by visible dye penetrant testing on 304L and weld overlay (WO) 625 composite tubes that form primary air-port openings. (a) Craze cracks on 304L. (b) Membrane cracks on WO625. (c), Circumferential cracks on 304L. (d) Tube-membrane weld cracks on WO625 More
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Close-up of weld metal showing intergranular cracks and appearance of britt...

in Failures of Pressure Vessels[1] > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 12(b) Close-up of weld metal showing intergranular cracks and appearance of brittle failure. More
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Toe cracks in the HAZ of a double-submerged arc weld.

in Failures of Pipelines[1] > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 7 Toe cracks in the HAZ of a double-submerged arc weld. More
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Underbead cracks (hydrogen cracking) in a girth weld.

in Failures of Pipelines[1] > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 10 Underbead cracks (hydrogen cracking) in a girth weld. More
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Fatigue cracks along the web-flange weld and at the end of the connection p...

in Failures of Bridge Components[1] > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 27 Fatigue cracks along the web-flange weld and at the end of the connection plate. More
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Stress-corrosion cracks in steel pipe weld. (a) Magnetic particle enhanceme...

in Stress-Corrosion Cracking > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 16 Stress-corrosion cracks in steel pipe weld. (a) Magnetic particle enhancement of cracks in the weld of an equalizer line elbow section. Cracks were localized in the weld and HAZs. (b) Cracks initiated on the inside surface and propagated through the weld in a multiple branching mode. More
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Identification of cracks according to location in weld and base metal. 1, c...

in Failures Related to Welding > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 3 Identification of cracks according to location in weld and base metal. 1, crater crack in weld metal; 2, transverse crack in weld metal; 3, transverse crack in HAZ; 4, longitudinal crack in weld metal; 5, toe crack in base metal; 6, underbead crack in base metal; 7, fusion-line crack; 8 More
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Transverse and longitudinal cracks on as-ground weld areas on the inside su...

in Corrosion of Carbon Steel Weldments > Corrosion: Fundamentals, Testing, and Protection
Published: 01 January 2003
Fig. 7 Transverse and longitudinal cracks on as-ground weld areas on the inside surface of storage vessel B. (a) Transverse and longitudinal cracks. (b) Transverse cracks. Source: Ref 11 More
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Identification of cracks according to location in weld and base metal. 1, c...

in Failures Related to Welding > Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 5 Identification of cracks according to location in weld and base metal. 1, crater crack in weld metal; 2, transverse crack in weld metal; 3, transverse crack in heat-affected zone; 4, longitudinal crack in weld metal; 5, toe crack in base metal; 6, underbead crack in base metal; 7 More
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Identification of cracks according to location in weld and base metal. 1, c...

in Overview of Weld Discontinuities > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 6 Identification of cracks according to location in weld and base metal. 1, crater crack in weld metal; 2, transverse crack in weld metal; 3, transverse crack in HAZ;, 4, longitudinal crack in weld metal; 5, toe crack in base metal; 6, underbead crack in base metal; 7, fusion-line crack More
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Surface cracks in a flux-cored arc weld highlighted by dye penetrant inspec...

in Characterization of Welds > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 3 Surface cracks in a flux-cored arc weld highlighted by dye penetrant inspection More
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Hot crack and crater cracks in weld bead

in Influence of Welding on Steel Weldment Soundness > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 4 Hot crack and crater cracks in weld bead More
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Indications of cracks (at arrows) in the weld between the web and rim of a ...

in Magnetic-Particle Inspection[1] > Nondestructive Evaluation of Materials
Published: 01 August 2018
Fig. 34 Indications of cracks (at arrows) in the weld between the web and rim of a 1.2 m (4 ft) diameter weldment More
Book Chapter

Cracking Phenomena Associated With Welding

By Michael J. Cieslak
Series: ASM Handbook
Volume: 6
Publisher: ASM International
Published: 01 January 1993
DOI: 10.31399/asm.hb.v06.a0001342
EISBN: 978-1-62708-173-3
... Abstract This article discusses four types of defects in materials that have been fusion welded and that have been the focus of much attention because of the magnitude of their impact on product quality. These include hot cracks, heat-affected zone (HAZ) microfissures, cold cracks, and lamellar...
Abstract
This article discusses four types of defects in materials that have been fusion welded and that have been the focus of much attention because of the magnitude of their impact on product quality. These include hot cracks, heat-affected zone (HAZ) microfissures, cold cracks, and lamellar tearing. These defects, all of which manifest themselves as cracks, are characteristic of phenomena that occur at certain temperature intervals specific to a given alloy. The article presents selected alloy 625 compositions used in weldability study.
View PDF for content titled, <span class="search-highlight">Cracking</span> Phenomena Associated With <span class="search-highlight">Welding</span>
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Deaerator storage tank weld cracking: crack depth as a percentage of wall t...

in Corrosion in the Condensate-Feedwater System > Corrosion: Environments and Industries
Published: 01 January 2006
Fig. 9 Deaerator storage tank weld cracking: crack depth as a percentage of wall thickness per year versus (a) time in service, (b) operating pressure, and (c) operating/design pressure ratio. Source: Ref 50 More
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AISI type 316 stainless steel piping that failed by SCC at welds. Cracking ...

in Stress-Corrosion Cracking > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 27 AISI type 316 stainless steel piping that failed by SCC at welds. Cracking was caused by exposure to condensate containing chlorides leached from insulation. (a) View of piping assembly showing cracks on inner surface of cone. Dimensions given in inches. (b) Macrograph of an unetched More
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Weld crack. Source: Ref 14

in Failure Analysis of Heat Exchangers > Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 34 Weld crack. Source: Ref 14 More
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Weld crack sensitivity of two common quaternary aluminum alloy systems (Al-...

in Weldability of Aluminum Alloys[1] > Aluminum Science and Technology
Published: 30 November 2018
Fig. 8 Weld crack sensitivity of two common quaternary aluminum alloy systems (Al-Mg-Zn-Cu and Al-Mg-Si-Cu) and a common ternary system (Al-Cu-Mg). Source: Ref 19 – 21 More
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Weld crack sensitivity of two common quaternary aluminum alloy systems (Al-...

in Selection and Weldability of Heat-Treatable Aluminum Alloys > Welding, Brazing, and Soldering
Published: 01 January 1993
Fig. 4 Weld crack sensitivity of two common quaternary aluminum alloy systems (Al-Mg-Zn-Cu and Al-Mg-Si-Cu) and a common ternary system (Al-Cu-Mg). Source: Ref 16 , 17 , 18 More
Book Chapter

Failures Related to Welding

By Jorge J. Perdomo, Luis A. Ganhao
Series: ASM Handbook
Volume: 11A
Publisher: ASM International
Published: 30 August 2021
DOI: 10.31399/asm.hb.v11A.a0006808
EISBN: 978-1-62708-329-4
... or rejection in new construction inspection are also discussed. The article discusses the types of base metal cracks and metallurgical weld cracking. The article discusses the processes involved in the analysis of in-service weld failures. It briefly reviews the general types of process-related discontinuities...
Abstract
This article describes some of the welding discontinuities and flaws characterized by nondestructive examinations. It focuses on nondestructive inspection methods used in the welding industry. The sources of weld discontinuities and defects as they relate to service failures or rejection in new construction inspection are also discussed. The article discusses the types of base metal cracks and metallurgical weld cracking. The article discusses the processes involved in the analysis of in-service weld failures. It briefly reviews the general types of process-related discontinuities of arc welds. Mechanical and environmental failure origins related to other types of welding processes are also described. The article explains the cause and effects of process-related discontinuities including weld porosity, inclusions, incomplete fusion, and incomplete penetration. Different fitness-for-service assessment methodologies for calculating allowable or critical flaw sizes are also discussed.
View PDF for content titled, Failures Related to <span class="search-highlight">Welding</span>