Chemical Bonding And Mechanical Properties Of M_2ac (m = Ti, V, Cr, A = Al, Si, P, S) Ceramics From First-principles Investigations

Ting Liao; Jingyang Wang; Yanchun Zhou

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Chemical Bonding And Mechanical Properties Of M_2ac (m = Ti, V, Cr, A = Al, Si, P, S) Ceramics From First-principles Investigations

机译：通过第一性原理研究M_2ac（m = Ti，V，Cr，A = Al，Si，P，S）陶瓷的化学键合和力学性能

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MAX-phase carbides (M is an early transition metal, A is an A-group element) exhibit an interesting bonding characteristic of alternative stacking of strong M-C bonds and relatively weak M-A bonds in one direction. In the present first-principles total energy calculations, we establish the relationship between mechanical properties and electronic structure for ternary M_2AC (M = Ti, V, Cr, A = Al, Si, P, S) carbides. By systematically tuning elements on the M and A sites, pronounced enhancements of bulk modulus, elastic stiffness, and ideal shear strength are achieved in V-containing V_2AC (A = Al, Si, P, and S) carbides. It is suggested that tailoring on the A site is more efficient than on the M site in strengthening the mechanical properties of studied serial carbides. The results highlight a general trend for tailor-made mechanical properties of ternary M_2AC carbides by control of chemical bonding.

机译：MAX相碳化物（M是早期过渡金属，A是A族元素）表现出有趣的粘结特性，即在一个方向上交替堆叠强M-C键和相对弱的M-A键。在当前的第一原理总能量计算中，我们建立了三元M_2AC（M = Ti，V，Cr，A = Al，Si，P，S）碳化物的机械性能与电子结构之间的关系。通过系统地调整M和A位置上的元素，在含V的V_2AC（A = Al，Si，P和S）碳化物中，体积模量，弹性刚度和理想剪切强度得到了显着提高。建议在增强研究的系列硬质合金的机械性能方面，在A部位进行剪裁比在M部位进行剪裁更有效。结果强调了通过控制化学键合量身定制的M_2AC三元碳化物机械性能的总体趋势。

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《Journal of Materials Research》 |2009年第2期|556-564|共9页
作者
Ting Liao; Jingyang Wang; Yanchun Zhou;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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Chemical Bonding And Mechanical Properties Of M_2ac (m = Ti, V, Cr, A = Al, Si, P, S) Ceramics From First-principles Investigations

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