| 带裂纹功能梯度材料薄板SIFs分析的广义参数Williams单元 |
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| 引用本文: | 徐华,杨涛,韩林君,杨绿峰.带裂纹功能梯度材料薄板SIFs分析的广义参数Williams单元[J].东北大学学报(自然科学版),2020,41(10):1476-1483. |
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| 作者姓名: | 徐华 杨涛 韩林君 杨绿峰 |
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| 作者单位: | (1. 广西大学 土木建筑工程学院/工程防灾与结构安全教育部重点实验室/广西防灾减灾与工程安全重点实验室, 广西 南宁530004;2. 中国电建集团华中电力设计研究院有限公司, 河南 郑州450007; 3. 广西壮族自治区 住房和城乡建设厅, 广西 南宁530028) |
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| 基金项目: | 国家自然科学基金重点资助项目(51738004); 广西自然科学基金资助项目(2019GXNSFAA245012); 工程防灾与结构安全教育部重点实验室系统性研究资助项目(2016ZDX06). |
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| 摘 要: | 根据Williams级数位移场,仅考虑弹性模量E为坐标的函数,通过改变裂尖奇异区微单元刚度集成方式,推导建立了功能梯度材料薄板平面断裂分析的广义参数Williams单元新格式.结合含中心斜裂纹和边界裂纹的功能梯度材料薄板,分析了弹性模量E的分布形式、裂纹倾角及裂纹长度对裂尖应力强度因子的影响.算例结果表明:该方法能够直接且高效求解带裂纹功能梯度材料薄板的裂尖应力强度因子;当弹性模量E呈单调变化且其梯度与荷载方向平行或垂直时,分别会使中心斜裂纹两个裂尖的I型或II型应力强度因子值产生差异,而应力强度因子随裂纹倾斜角度的分布规律并不受弹性模量E的分布形式影响.
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| 关 键 词: | 功能梯度材料 应力强度因子 广义参数Williams单元 弹性模量 奇异区 |
| 收稿时间: | 2019-11-05 |
| 修稿时间: | 2019-11-05 |
Williams Element with Generalized Degrees of Freedom for SIFs Analysis in Functionally Graded Material Plate with Cracks |
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| XU Hua,YANG Tao,HAN Lin-jun,YANG Lu-feng.Williams Element with Generalized Degrees of Freedom for SIFs Analysis in Functionally Graded Material Plate with Cracks[J].Journal of Northeastern University(Natural Science),2020,41(10):1476-1483. |
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| Authors: | XU Hua YANG Tao HAN Lin-jun YANG Lu-feng |
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| Institution: | 1. School of Civil Engineering and Architecture/Key Laboratory of Disaster Prevention and Structural Safety of Ministry of Education/Guangxi Key Laboratory of Disaster Prevention and Engineering Safety, Guangxi University, Nanning 530004, China; 2. Power China Central China Electric Power Engineering Co., Ltd., Zhengzhou 450007, China; 3. Department of Housing and Urban-Rural Development, Guangxi Zhuang Autonomous Region, Nanning 530028, China. |
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| Abstract: | According to the Williams series displacement field, only considering the elastic modulus E as a function of coordinate, a new format of Williams element with generalized degrees of freedom for the thin plane fracture analysis in a functionally graded material plate is derived by changing the integration mode of the overall stiffness of the crack tip in the singular region. Combined with a inclined crack and an edge crack contained in a functionally graded material plate, the influence of the distribution form of the elastic modulus E, the crack inclination angle and the crack length on the stress intensity factor at the crack tip is analysed. The results show that the method can directly and efficiently solve the crack tip stress intensity factor of the functionally graded material with cracks. When the elastic modulus E changes monotonically and its gradient is parallel to or vertical to the load direction, the stress intensity factors of mode I or mode II at the two crack-tips of the central inclined crack are different, and the distribution of stress intensity factors with the crack inclination angle is not affected by the distribution form of elastic modulus E. |
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| Keywords: | functionally graded material stress intensity factor Williams element with generalized degrees of freedom elastic modulus singular region |
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