氧化铝陶瓷的理论弹道性能及纳米氧化物对其影响的有限元分析

IF 1.5 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
Partha Haldar, Mainak Ghosh, Tarik Hassan, Tapas Kumar Bhattacharya, Nipu Modak
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引用次数: 0

摘要

摘要本文研究了纳米CuO和TiO2作为掺杂剂对烧结氧化铝装甲弹道性能的影响,并对其结果进行了有限元模拟。利用Ansys workbench以820 m/s的高速度在钢芯、铜质外护套弹的Al6061-T6装甲背板组件上构建模型。与纯氧化铝相比,加入2 wt%纳米CuO后,子弹的穿透深度大幅降低至36.17%。1 wt%纳米TiO2的优化效果约为40.42%。在140 μs时,添加2 wt%的纳米CuO和1 wt%的纳米TiO2,子弹的残余速度分别比纯氧化铝降低38%和56.82%。与纳米CuO相比,添加1wt %纳米TiO2的氧化铝装甲显示出最好的弹道性能。关键词:弹道性能alumina7.62 M61穿甲弹穿深
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Theoretical Ballistic Performance of Alumina Ceramics and the Effect of Nano Oxides Addition Using Finite Element Analysis
AbstractThe present investigation has turned on the effect of nano CuO and TiO2 as a dopant on ballistic performance of sintered alumina armours and its results are simulated using finite element analysis. The model was constructed on armor-backing plate (Al6061-T6) assembly with a steel made core and copper made outer jacketed bullet at high velocity (820 m/s) by Ansys workbench. The depth of penetration of bullet drastically reduces to 36.17% due to addition of 2 wt% nano CuO with respect to pure alumina. The same optimized effect shown by 1 wt% nano TiO2 is about 40.42%. The residual velocity of bullet gradually decreases with time and there is more reduction of residual velocity of 38% and 56.82% at 140 μs by addition of 2 wt% nano CuO and 1 wt% nano TiO2 respectively with respect to pure alumina. The alumina armours with 1 wt% nano TiO2 addition showed the best ballistic performance as compared to nano CuO.Keywords: Ballistic performanceAlumina7.62 M61 AP (armour piercing) bulletDepth of penetration
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来源期刊
Transactions of the Indian Ceramic Society
Transactions of the Indian Ceramic Society 工程技术-材料科学:硅酸盐
CiteScore
2.40
自引率
8.30%
发文量
12
审稿时长
2.3 months
期刊介绍: Transactions of the Indian Ceramic Society is a quarterly Journal devoted to current scientific research, technology and industry-related news on glass and ceramics. The Journal covers subjects such as the chemical, mechanical, optical, electronic and spectroscopic properties of glass and ceramics, and characterization of materials belonging to this family. The Editor invites original research papers, topical reviews, opinions and achievements, as well as industry profiles for publication. The contributions should be accompanied by abstracts, keywords and other details, as outlined in the Instructions for Authors section. News, views and other comments on activities of specific industries and organizations, and also analyses of industrial scenarios are also welcome.
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