项目名称: 电磁固体表面Maxwell应力对固体断裂的效应
项目编号: No.11472130
项目类型: 面上项目
立项/批准年度: 2015
项目学科: 数理科学和化学
项目作者: 高存法
作者单位: 南京航空航天大学
项目金额: 86万元
中文摘要: 应用理论和实验相结合、宏观分析与微观分析相结合的方法,研究电磁固体在 其表面Maxwell 作用下的断裂行为。在理论研究方面,重点研究电磁固体分别在电磁场作用 下,在力-电-磁耦合载荷作用下、在动态电磁场作用下固体表面Maxwell 应力对断裂的效应; 同时考虑材料的微结构演化对裂纹扩展的影响。在实验研究方面,重点进行电磁材料在电磁 场作用下的断裂实验,探索不同材料界面上Maxwell 应力的效应。创新点包括:提出Coulomb 裂纹桥和可变电容器裂纹模型等,从而可望揭示在电磁场作用下电磁固体内部能量耗 散的机理。通过上述研究,加深人们对电磁固体断裂失效机理的认识,发展电磁固体断裂力 学理论,建立宏-微观断裂失效准则,为智能器件的可靠性设计奠定理论基础。
中文关键词: 电磁固体;Maxwell;应力;断裂
英文摘要: Using theoretical and experimental approaches together with macroscopic and microscopic analyses, this project is focused on studying the fracture behaviors of electromagnetic solid subjected to surface Maxwell stresses. In theoretical research, emphasis is on the investigation of effects of Maxwell stresses on the fracture of the solid which is under electric or magnetic fields, mechanical-electric-magnetic coupling fields, and dynamic electromagnetic fields, respectively; in addition, the influences of micro-structure evolution on fracture is also taken into account. In experimental research, stress is on the fracture tests of electromagnetic solids, in order to explore the effects of Maxwell stresses at the interface of a bimaterial system. Novel points in this project include: several new crack models, for example, Coulomb-bridging-crack and variable capacitor models are proposed, which are expected to be used for explaining the energy dissipation mechanism in electromagnetic solids. Through the above theoretical and experimental works, the outcomes can be used to explore the failure mechanism of electromagnetic solids, to develop the fracture mechanics of electromagnetic materials, to establish the macro-micro fracture criterion, and finally to lay a theoretical foundation of reliability design for electromagnetic devices.
英文关键词: electromagnetic solids;Maxwell stress;fracture