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Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Eng. Mater. Technol. October 2024, 146(4): 041003.
Paper No: MATS-23-1207
Published Online: April 3, 2024
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 1 Schematic of EAC at the safety-end welding joint of PWR primary loop More about this image found in Schematic of EAC at the safety-end welding joint of PWR primary loop
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 2 Pressure vessel nuclear power primary circuit safety-end DMWJ: ( a ) composition of welded joint structure and ( b ) composition of welded joint material [ 5 ] More about this image found in Pressure vessel nuclear power primary circuit safety-end DMWJ: ( a ) compos...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 3 Microstructural Analysis of the Welded Joint: ( a ) microstructure analysis positions (from A to F) and ( b ) microstructure analysis experiment More about this image found in Microstructural Analysis of the Welded Joint: ( a ) microstructure analysis...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 4 Surface roughness testing: ( a ) handheld surface roughness gauge and ( b ) surface roughness measurement More about this image found in Surface roughness testing: ( a ) handheld surface roughness gauge and ( b )...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 5 Indentation test process: ( a ) indentation testing system and ( b ) schematic arrangement of indentation test points More about this image found in Indentation test process: ( a ) indentation testing system and ( b ) schema...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 6 Composition of the indentation effect More about this image found in Composition of the indentation effect
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 7 Subroutine flow diagram More about this image found in Subroutine flow diagram
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 8 Schematic diagram of displacement boundary conditions and contact definitions along the x -axis More about this image found in Schematic diagram of displacement boundary conditions and contact definitio...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 9 Crack propagation as a function of time More about this image found in Crack propagation as a function of time
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 10 Geometric model: ( a ) schematic representation of various regions in the simplified welded structure and ( b ) crack location More about this image found in Geometric model: ( a ) schematic representation of various regions in the s...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 11 Mesh model: ( a ) stationary mesh model and ( b ) growing mesh model More about this image found in Mesh model: ( a ) stationary mesh model and ( b ) growing mesh model
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 12 Microstructures of the DMWJ in the different locations: ( a ) BM in SA508, ( b ) HAZ in SA508, ( c ) SA508/52 Mb interface zone, ( d ) 52 Mw/316 L interface zone, ( e ) HAZ in 316 L, and ( f ) BM in 316 L More about this image found in Microstructures of the DMWJ in the different locations: ( a ) BM in SA508, ...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 13 Indentation test analysis: ( a ) load–displacement curves at different material locations and ( b ) distribution of F max -hr along the welded joint More about this image found in Indentation test analysis: ( a ) load–displacement curves at different mate...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 14 Uneven distribution of material mechanical properties: ( a ) relationship between unloading work and total indentation work and ( b ) distribution of yield strength along the welded joint More about this image found in Uneven distribution of material mechanical properties: ( a ) relationship b...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 15 Stationary crack tip stress fields at welded joint interfaces ( a ) SA508/52 Mb interface, ( b ) 52 Mb/52 Mw interface and ( c ) 52 Mw/316 L interface More about this image found in Stationary crack tip stress fields at welded joint interfaces ( a ) SA508/5...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 16 Stationary crack tip strain fields at welded joint interfaces ( a ) SA508/52 Mb interface, ( b ) 52 Mb/52 Mw interface and ( c ) 52 Mw/316 L interface More about this image found in Stationary crack tip strain fields at welded joint interfaces ( a ) SA508/5...
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in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 17 Relationship between loading amplitude, crack propagation length, and calculation steps ( a ) external load and ( b ) crack propagation length More about this image found in Relationship between loading amplitude, crack propagation length, and calcu...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 18 Growing crack tip stress fields at welded joint interfaces: ( a ) SA508/52 Mb interface, ( b ) 52 Mb/52 Mw interface, and ( c ) 52 Mw/316 L interface More about this image found in Growing crack tip stress fields at welded joint interfaces: ( a ) SA508/52 ...
Image
in Characterization of Mechanical Heterogeneity and Study of the Mechanical Field at the Tip of the Stationary-Growing Crack in Dissimilar Metal Welded Joints
> Journal of Engineering Materials and Technology
Published Online: April 3, 2024
Fig. 19 Growing crack tip stress fields at welded joint interfaces: ( a ) SA508/52 Mb interface, ( b ) 52 Mb/52 Mw interface, and ( c ) 52 Mw/316 L interface More about this image found in Growing crack tip stress fields at welded joint interfaces: ( a ) SA508/52 ...
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