Modeling and Analysis of Passive Vibration Isolators and Systems starts by providing readers with a general background on vibration isolation and the modeling of single and multiple degree-of-freedom systems, then moves into outlining a range of models that can be used in each system, discussing the pros and cons of the models and providing guidance on model selection. It then introduces models that can be used to comprehend some of the nonlinearities associated with the design of vibration isolation systems, allowing the development of systems that can make use of these nonlinearities to enhance isolation. The book concludes with chapters discussing specific attributes associated with elastomeric materials that need to be considered during the design and analysis of passive vibration isolators along with applied examples that can be used for reference. Specific models from previous chapters are used to demonstrate the influence of model selection as well as parameter sensitivity. Practical exercises are highlighted at the end of each chapter, and appendices featuring differential equations and matrix algebra examples provide mathematical background in support of the preceding chapters. Outlines use of multiple models for optimal passive vibration isolation system designDiscusses the effects system design has on subsequent product development components and parametersIncludes applied examples from the automotive, aerospace, civil engineering, and machine tool industriesModels presented can be extended or modified to investigate different means of passive isolation, nonlinearities and specific design configurations, and also used for model correlation, reducing iterations in the product development cycleConsiders specific elastomer characteristics such as Mullins and Payne effects for theoretical modeling and analysis INDICE: 1. Vibration Isolation Background 2. Viscoelastic Modeling: Passive Vibration Isolators 3. Vibration Isolation System Modeling 4. Vibration Isolation Systems: Nonlinear Models 5. Modeling Elastomer Characteristics 6. Elastomeric Vibration Isolator Design Appendix A. Differential Equations B. Matrix Algebra
- ISBN: 978-0-12-819420-1
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 250
- Fecha Publicación: 01/05/2021
- Nº Volúmenes: 1
- Idioma: Inglés