Non-Gaussian Random Vibration Fatigue Analysis and Accelerated Test [electronic resource] /
by Yu Jiang, Junyong Tao, Xun Chen.
- 1st ed. 2022.
- 1 online resource
Introduction -- Statistic analysis of non-Gaussian random load -- Simulation of Non-Gaussian/non-stationary Random Vibration -- Dynamic stress response and fatigue life of cantilever beam under non-Gaussian base excitation -- Fatigue life analysis under Non-Gaussian random vibration excitation -- Fatigue reliability evaluation of structural components under random loadings -- Non-Gaussian Random Vibration Accelerated Test.
This book discusses the theory, method and application of non-Gaussian random vibration fatigue analysis and test. The main contents include statistical analysis method of non-Gaussian random vibration, modeling and simulation of non-Gaussian/non-stationary random vibration, response analysis under non-Gaussian base excitation, non-Gaussian random vibration fatigue life analysis, fatigue reliability evaluation of structural components under Gaussian/non-Gaussian random loadings, non-Gaussian random vibration accelerated test method and application cases. From this book, the readers can not only learn how to reproduce the non-Gaussian vibration environment actually experienced by the product, but also know how to evaluate the fatigue life and reliability of the structure under non-Gaussian random excitation.
9789811636943
10.1007/978-981-16-3694-3 doi
Civil engineering. Industrial engineering. Production engineering. Mechanics, Applied. Solids. Civil Engineering. Industrial and Production Engineering. Solid Mechanics.