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作 者:程昊[1,2] 高煜[1,2] 张永斌[1,2] 毕传兴[1,2] 陈剑[1,2]
机构地区:[1]合肥工业大学噪声振动工程研究所,合肥230009 [2]安徽省汽车NVH与可靠性重点实验室,合肥230009
出 处:《机械工程学报》2008年第7期45-51,共7页Journal of Mechanical Engineering
基 金:国家自然科学基金(50575063);安徽省自然科学基金(050440107);安徽省学术创新群体重大研究专项资助项目
摘 要:振动结构关于设计变量的声学灵敏度分析可以为机械系统的低噪声设计提供量化依据,为结构的优化设计提供方向。采用边界元法,推导了辐射声压关于频率、表面振速等设计变量的声学灵敏度公式。在对系数矩阵求导时,没有采用传统的有限差分法,而是直接求导,并利用不连续单元替换点法处理边界元法中的奇异积分问题。将数值解与理论值比较,证明了计算公式的准确性和有效性。该灵敏度计算方法为机械系统的低噪声设计打下了基础。The determination of the acoustic sensitivity characteristics with respect to the variation of the design parameters can provide a method for low-noise design of mechanical structure objectively and quantitatively. Based on the boundary element method, the expressions of sensitivities of the acoustic pressure with respect to changes in frequency and surface vibration velocity are presented. The sensitivities of coefficient matrix are computed by differentiation directly, instead of finite difference approximation. Using displaced points method, the singular integral can be obtained fast and correctly. Numerical sensitivity results obtained by the boundary element method are compared to analytical solutions, and the validation and availability of the present method are proved. These acoustic sensitivity analysis methods can lay a solid foundation for the low-noise design of mechanical structure.
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