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首页> 外文期刊>CERAMICS INTERNATIONAL >Evaluation of key mechanical design properties and mechanical characteristic features of advanced Bi-2212 ceramic materials with homovalent Bi/Ga partial replacement: Combination of experimental and theoretical approaches
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Evaluation of key mechanical design properties and mechanical characteristic features of advanced Bi-2212 ceramic materials with homovalent Bi/Ga partial replacement: Combination of experimental and theoretical approaches

机译:具有经常型BI / GA部分替代的先进BI-2212陶瓷材料关键机械设计性能和机械特性的评价:实验和理论方法的组合

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摘要

This study models the variations in the key mechanical design properties and mechanical characteristic features of Ga substituted Bi-site Bi-2212 ceramics prepared within the different molar ratios of x = 0.000, 0.005, 0.010, 0.030, 0.050, 0.100 and 0.300 with the assistant of available theoretical approaches; namely, Meyer's law, proportional sample resistance, elastic/plastic deformation, modified proportional sample resistance model, Hays Kendall and indentation-induced cracking methods for the first time. The mechanical modeling parameters are gathered from the microhardness (Vickers) experimental tests performed at various applied loads interval 0.245 N-2.940 N. The results provide that the key mechanical design features improve systematically with the augmentation of trivalent Bi/Ga partial replacement level up to x = 0.05 due to the rapid decrement in the main structural problems; namely, the grain orientations, lattice strains, distortions, dislocations, grain boundary interaction/coupling problems, crack-initiating and crack-producing omnipresent flaws in the advanced Bi-2212 ceramic system. Accordingly, the optimum Ga inclusions strengthens the mechanical durability towards the applied stress due to the increased stabilization in the durable tetragonal phase. After the critical substitution amount of x = 0.05, the mechanism turns reversely, and the general mechanical characteristic features including the stiffness, mechanical durability and strength degrade remarkably. Additionally, the mechanical modeling results demonstrate that the Bi/Ga impurity leads to vary positively the quality of standard indentation size effect (ISE) feature until x = 0.05, beyond which the excess Ga additives damage seriously ISE feature of Bi-2212 inorganic compounds. Besides, the indentation-induced cracking (IIC) model is noticed as the best method to describe the true microhardness parameters of Bi/Ga substituted Bi-2212 compounds for the mechanical characterization.
机译:本研究模拟了在X = 0.000,0.000,0.000,0.030,0.050,0.010,030,0.050,0.010,030,0.05,0.010,030,0.050,0.100和0.300的X = 0.000,0.030,0.05,0.100和0.300的X = 0.000,0.030,0.050,0.100和0.300内具有常备的Bi-Site Bi-2212陶瓷的关键机械设计性能和机械特性特征的变化。可用理论方法;即,Meyer的定律,比例样品电阻,弹性/塑性变形,改进的比例样品电阻模型,首次进行了Hays Kendall和压痕诱导的裂化方法。机械建模参数从微硬度(VICKERS)在各种施加的载荷间隔0.245 N-2.940 N处进行的实验试验。结果提供了关键机械设计功能,系统地通过增强三价BI / GA部分更换水平来改善x = 0.05由于主要结构问题的迅速下降;即,在先进的Bi-2212陶瓷系统中,晶粒取向,晶格菌株,畸变,脱位,晶界相互作用/耦合问题,裂缝引发和产生裂缝的全峰缺陷。因此,最佳的GA夹杂物由于耐用的四方相中稳定增加而强化朝向施加的应力的机械耐久性。在X = 0.05的临界取代量之后,机构反转地转动,并且具有刚度,机械耐久性和强度的一般机械特性特征显着降低。另外,机械建模结果表明,BI / GA杂质导致标准凹凸尺寸效应(ISE)特征的质量相差,直至x = 0.05,超出其过多的GA添加剂损害Bi-2212无机化合物的严重特征。此外,注意到缩进诱导的裂化(IIC)模型作为描述Bi / Ga取代的Bi-2212化合物的真实微硬度参数的最佳方法,用于机械表征。

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