| 基于FEM-PIM计及热效应的统计能量分析 |
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| 引用本文: | 陈强,张鹏,李彦斌,吴邵庆,费庆国.基于FEM-PIM计及热效应的统计能量分析[J].航空动力学报,2017,32(6):1366-1374. |
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| 作者姓名: | 陈强 张鹏 李彦斌 吴邵庆 费庆国 |
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| 作者单位: | 1.东南大学 土木工程学院 工程力学系,南京 210096;东南大学 江苏省工程力学分析重点实验室,南京 210096 |
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| 基金项目: | 国家自然科学基金(11572086, 11402052); 教育部新世纪优秀人才支持计划(NCET-11-0086); 江苏省自然科学基金(BK20140616) |
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| 摘 要: | 结合有限元法(FEM)和模态坐标系下计及热效应的功率输入法(PIM),给出一种热环境下适用于复杂结构的统计能量分析方法.以各边简支的L型折板为研究对象,开展雨流载荷作用下的数值模拟验证方法的准确性.开展3种工况条件下热效应对统计能量分析参数的影响研究:①仅考虑热效应引起的材料力学性能变化;②仅考虑热应力引起的附加刚度效应;③同时考虑考虑两者影响.结果表明:温升影响材料力学性能的同时会导致耦合损耗因子减小,但对内损耗因子的影响不大;热应力引起的附加刚度效应对内损耗因子和耦合损耗因子的影响较大,两者均随温度的升高而逐渐减小;同时考虑两者影响时,热应力对统计能量分析参数的影响占主导地位,内损耗因子和耦合损耗因子均随温度的升高而逐渐减小;模态密度与温度的变化趋势基本一致.
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| 关 键 词: | 统计能量分析 热效应 功率输入法 内损耗因子 耦合损耗因子 |
| 收稿时间: | 2016/9/11 0:00:00 |
Statistical energy analysis considering thermal effect based on FEM-PIM |
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| CHEN Qiang,ZHANG Peng,LI Yanbin,WU Shaoqing,FEI Qingguo.Statistical energy analysis considering thermal effect based on FEM-PIM[J].Journal of Aerospace Power,2017,32(6):1366-1374. |
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| Authors: | CHEN Qiang ZHANG Peng LI Yanbin WU Shaoqing FEI Qingguo |
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| Abstract: | With the combination of the finite element method (FEM) and the power injection method (PIM) under modal coordinate considering thermal effect, a statistical energy analysis method applicable of vibration analysis of complex structures under thermal environment was presented. A simply supported L-shaped folded plate under rain on the roof excitation was studied and the accuracy of proposed method was verified with numerical examples. The influence of thermal effect on the parameters in statistical energy analysis was investigated under three cases: (1) only the material properties were affected by the thermal effect; (2) only the additional stiffness due to thermal stresses was considered; (3) both (1) and (2) were considered. Results showed that the increasing temperature changed the material properties and decreasd the value of coupling loss factor, but had little influence on internal loss factor. The thermal stresses had great influence on the parameters in statistical energy analysis, the increasing temperature decreasd both internal loss factor and coupling loss factor. When both (1) and (2) were considered, the influence of thermal stresses was dominant, the internal loss factor and the coupling loss factor gradually decreased with the increase of temperature. Similar trend was found between the change of modal density and temperature. |
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| Keywords: | statistical energy analysis thermal effect power injection method internal loss factor coupling loss factor |
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