Jin Wen-lu. Nonstationary Random Vibration Analysis of Linear Elastic Structures with Finite Element Method[J]. Applied Mathematics and Mechanics, 1982, 3(6): 757-766.
Citation: Jin Wen-lu. Nonstationary Random Vibration Analysis of Linear Elastic Structures with Finite Element Method[J]. Applied Mathematics and Mechanics, 1982, 3(6): 757-766.

Nonstationary Random Vibration Analysis of Linear Elastic Structures with Finite Element Method

  • Received Date: 1982-11-30
  • Publish Date: 1982-12-15
  • At present, the finite element method is an efficient method for analyzing structural dynamic problems. When the physical quantities such as displacements and stresses are resolved in the spectra and the dynamic matrices are obtained in spectral resolving form, the relative equations cannot be solved by the vibration mode resolving method as usual. For solving such problems, a general method is put forward in this paper. The excitations considered with respect to nonstationary processes are as follows:P(t)={Pi(t)},Pi(t)=ai(t)Pi0(t), ai(t) is a time function already known. We make Fourier transformation for the discretized equations obtained by finite element method, and by utilizing the behaviour of orthogonal increment of spectral quantities in random process[1], some formulas of relations about the spectra of excitation and response are derived. The cross power spectral denisty matrices of responses can be found by these formulas, then the structrual safety analysis can be made. When ai(t)=l (i=1,2,…n), the. method stated in this paper will be reduced to that which is used in the special case of stationary process.
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    旋旦大学主编,《概率论与数理统计》,(第二版),上海科技出版社,(1961).
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    星谷胜.《确率论手法にょる振勤分析》,地震出版社常宝琦译.
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