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作 者:张天军[1] 许鸿杰[1] 李树刚[2] 马咪娜[1]
机构地区:[1]西安科技大学理学院,西安710054 [2]西安科技大学能源学院,西安710054
出 处:《固体力学学报》2011年第1期29-36,共8页Chinese Journal of Solid Mechanics
基 金:国家自然科学基金项目(50574072;50874089);陕西省教育厅专项科研基金项目(08JK366)资助
摘 要:为研究微损伤对非均匀材料宏观破坏的影响,建立了非均匀材料的三维微单元强度分布模型,在平均场模型和集团分担模型的基础上,根据模拟计算结果建立了邻近单元加权分担模型;采用细观统计的方法建立了微观损伤造成宏观破坏的概率函数及跨尺度敏感性函数.结果表明:材料的损伤分数和名义应力越大,破坏集团之间的距离越近,宏观破坏概率就越大;损伤分数较小时,材料的跨尺度敏感性随损伤分数增加而增大;损伤分数较大时,材料的跨尺度敏感性随损伤分数增加而减小;材料的跨尺度敏感性受体系大小影响,体系越大其敏感性越小.In order to study the impact of micro-damage on the macro-failure of heterogeneous materials,we built a 3-D micro-element strength distribution model for heterogeneous materials. On the basis of the average field model and the group sharing model,and in accordance with the simulation results,an adjacent element weight sharing model was built. We used the microscopic statistical method to establish the probability function and the trans-scale sensitivity function of macroscopic failure caused by microscopic damage. The study result shows that (1) the larger the damage fraction and the nominal stress of the materials are, and the closer the distance between the damage group is, the greater the macroscopic damage probability is; (2) when the damage fraction is smaller,the material's trans-scale sensitivity increases with the increase of damage fraction; (3) when damage fraction is larger, the material's trans-scale sensitivity decreases as the damage fraction increases; and (4) the material's trans-scale sensitivity is dependent on the size of the system,and the larger the sensitivity,the smaller the system.
分 类 号:TB301[一般工业技术—材料科学与工程]
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