First-Principle Calculation on Critical Velocity for Cu and Al Cold-Spray Bonding

Chemical Engineering (Engineering) eJournal Pub Date : 2020-10-05 DOI:10.2139/ssrn.3688748
Chengsong Zhang, Qian Wang, Xiao-Tao Luo, N. Ma
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Abstract

The first-principles calculation with a newly developed high-efficient computing method was firstly applied to prediction of critical velocity for Cu/Al cold-spray bonding without any empirical parameters. An excellent agreement between predicted values and experimental values was obtained. The bonding mechanism of cold-spray was clarified by analyzing the atomic response in displacement during cold-spray process. A mixed bonding mechanism of adiabatic shear instability and pressure-release was confirmed. The computing method could be popularized to extensive applications in critical velocity prediction.
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铜铝冷喷涂键合临界速度的第一性原理计算
首次将第一性原理计算方法与一种新的高效计算方法应用于无经验参数的Cu/Al冷喷涂键合临界速度预测。结果表明,预测值与实验值吻合良好。通过对冷喷涂过程中原子位移响应的分析,阐明了冷喷涂的键合机理。证实了一种绝热剪切失稳和压力释放的混合粘接机制。该计算方法可推广到临界速度预测的广泛应用。
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Chemical Engineering (Engineering) eJournal
Chemical Engineering (Engineering) eJournal
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