Shougo Kakizaki scite author profile

Shougo Kakizaki

4Publications

17Citation Statements Received

22Citation Statements Given

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Affiliations

Tokyo Institute of Technology

Publications

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Simulation and Experimental Analysis of Metal Jet Emission and Weld Interface Morphology in Impact Welding

2011

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Metal jet emission and weld interface formation in impact welding were investigated for similar-and dissimilar-metal lap joints. Numerical simulation of oblique collision between metal plates was performed using smoothed particle hydrodynamics (SPH) method for various plate thicknesses, collision velocities, and collision angles. Metal jet emission and formation of the characteristic wavy weld interface in impact welding were reproduced successfully. The composition of the metal jet was governed by the degree of relative density difference between two metals. When the density difference was large, such as Al/Cu and Al/Ni lap joints, the metal jet was mainly composed of the metal component with lower density, Al. On the other hand, when the density difference was small or zero, such as for Cu/Ni and Al/Al lap joints, the metal jet was composed of both metal components. Several types of lap joints were fabricated by magnetic pulse welding (MPW). Metal jets emitted from Al/Cu and Cu/Al lap joints were collected, and their components were analyzed by X-ray diffraction. The microstructure of the weld interface was also examined. The experimental results were in good agreement with the simulation results.

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Simulation and experimental analysis of metal jet emission and weld interface morphology in impact welding

Kakizaki¹,

Watanabe²,

Kumai³

2011

J.JILM

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Metal jet emission and weld interface formation in impact welding were investigated for similar-and dissimilar-metal lap joints. Numerical simulation of oblique collision between metal plates was performed using smoothed particle hydrodynamics SPH method for various plate thicknesses, collision velocities, and collision angles. Metal jet emission and formation of the characteristic wavy weld interface in impact welding were reproduced successfully. The composition of the metal jet was governed by the degree of relative density difference between two metals. When the density difference was large, such as Al/Cu and Al/Ni lap joints, the metal jet was mainly composed of the metal component with lower density, Al. On the other hand, when the density difference was small or zero, such as for Cu/Ni and Al/Al lap joints, the metal jet was composed of both metal components. Several types of lap joints were fabricated by magnetic pulse welding MPW. Metal jets emitted from Al/Cu and Cu/Al lap joints were collected, and their components were analyzed by X-ray diffraction. The microstructure of the weld interface was also examined. The experimental results were in good agreement with the simulation results.

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Experimental and Numerical Analysis of Formation Manner of Characteristic Wavy Morphology in Impact Welded Similar- and Dissimilar-Metal Plates

Sawa

Kakizaki

Kumai

2012

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A study on the stress ratio around welding lines of ribs in orthotropic steel decks

Kakizaki¹,

Ōnishi²,

Ubagami³

et al. 2021

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Shougo Kakizaki

Simulation and Experimental Analysis of Metal Jet Emission and Weld Interface Morphology in Impact Welding

Simulation and experimental analysis of metal jet emission and weld interface morphology in impact welding

Experimental and Numerical Analysis of Formation Manner of Characteristic Wavy Morphology in Impact Welded Similar- and Dissimilar-Metal Plates

A study on the stress ratio around welding lines of ribs in orthotropic steel decks

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