2021
DOI: 10.1088/1674-1056/abeb10
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An improved model of damage depth of shock-melted metal in microspall under triangular wave loading*

Abstract: Damage depth is an important dynamic parameter for describing the degree of material damage and is also a key fundamental issue in the field of impact compression technology. The present work is dedicated to the damage depth of shock-melted metal in microspall under triangular wave loading, and an improved model of damage depth considering the material’s compressibility and relative movement is proposed. The damage depth obtained from the proposed model is in good agreement with the laser-driven shock loading … Show more

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Cited by 3 publications
(1 citation statement)
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“…Fig. 1(a) exhibits a microstructure reveals the grossest Cu-rich α phase grains that was the first constituent to be formed, hence, also it depletes the neighboring regions of aluminum with dendritic morphology resulting after solidification; the light-looking crystals represent the grains corresponding to the copper-rich α phase [17], while the dark interdendritic phase is related to a matrix containing CuAl, belonging to the β phase. Note that this is a rather coarse set of microstructural constituents, mostly present in elongated crystals.…”
Section: Microstructurementioning
confidence: 99%
“…Fig. 1(a) exhibits a microstructure reveals the grossest Cu-rich α phase grains that was the first constituent to be formed, hence, also it depletes the neighboring regions of aluminum with dendritic morphology resulting after solidification; the light-looking crystals represent the grains corresponding to the copper-rich α phase [17], while the dark interdendritic phase is related to a matrix containing CuAl, belonging to the β phase. Note that this is a rather coarse set of microstructural constituents, mostly present in elongated crystals.…”
Section: Microstructurementioning
confidence: 99%