Xiang Hai Ye scite author profile

Xiang Hai Ye

3Publications

1Citation Statement Received

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Ordnance Engineering College

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Influence of Temperature Rise in Penetration of W<sub>f</sub>/Zr-Based Amorphous Matrix Composite Projectile on Target Material

Shi

Zou

et al. 2014

AMM

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Wf/Zr-based amorphous matrix composite is supposed as a potential penetrator material of armor-piercing projectile because it has both advanced piercing performance and environmentally friendly property, and it becomes the hot spot of science study and engineering application. To get a deeper understand of the penetration mechanism and the influence of temperature rise on structure of target, target which is penetrated by penetrator made of Wf/Zr-based amorphous matrix composite is studied by SEM and micro-hardness tester. Oxidation of back of target is severe, and Martensite transformation happens around the crater. From the crater surface to the interior of the steel target, the section can be divided into 3 layers: the Martensite layer, the deformed fine grain layer and the normal matrix. Martensite transformation indicates the target steel around crater is heated and softened in penetration, so this phenomenon is beneficial to penetrate and get a deeper understand of the penetration mechanism. CLC: TJ04 Document code: A

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Change Regulation of Hardness of Target around Crater Penetrated by W<sub>f</sub>/Zr-Based Amorphous Matrix Composite Projectile

Ye¹,

Shi²,

Zou³

et al. 2014

AMR

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Because of excellent mechanical, physical and chemical property Wf/Zr-based amorphous matrix composite attracts people’s interest and becomes the hot spot of science study and engineering application. In this paper, change regulation of hardness of target around crater by Wf/Zr-based amorphous matrix composite projectile and its mechanism are studied after firing test, and it is found that the section can be divided into 3 layers: the Martensite layer, the deformed fine grain layer and the normal matrix from the crater surface to the interior of the steel target and that the thickness of Martensite layer increases first and then decreases in the penetration direction when the velocity of projectile is 1200m/s.

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Effect of Feeding Rate on Properties of Cu-Ag Alloy Nanopowders

Zou¹,

Wu²,

Zhu³

et al. 2014

AMR

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The relations between specific surface area, morphologies and collection rate, feeding rate of Cu-Ag alloy nanopowders prepared by plasma induction system were studied by specific surface area tester and SEM. The results show that with the increase of powder feeding rate from 300g/h to 500g/h and to 800g/h, the collection rate decreases from 59.1% to 47.2% and to 46.1%, respectively, and the specific surface area accordingly decreases from 9.25m2/g to 7.17m2/g and to 5.45m2/g.

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Xiang Hai Ye

Influence of Temperature Rise in Penetration of W<sub>f</sub>/Zr-Based Amorphous Matrix Composite Projectile on Target Material

Change Regulation of Hardness of Target around Crater Penetrated by W<sub>f</sub>/Zr-Based Amorphous Matrix Composite Projectile

Effect of Feeding Rate on Properties of Cu-Ag Alloy Nanopowders

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