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Damage Evaluation of Critical Components of Tilted Support Spring Nonlinear System under a Rectangular Pulse

Author

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  • Ningning Duan
  • Meng Hao
  • Anjun Chen

Abstract

Dimensionless nonlinear dynamical equations of a tilted support spring nonlinear packaging system with critical components were obtained under a rectangular pulse. To evaluate the damage characteristics of shocks to packaged products with critical components, a concept of the damage boundary surface was presented and applied to a titled support spring system, with the dimensionless critical acceleration of the system, the dimensionless critical velocity, and the frequency parameter ratio of the system taken as the three basic parameters. Based on the numerical results, the effects of the frequency parameter ratio, the mass ratio, the dimensionless peak pulse acceleration, the angle of the system, and the damping ratio on the damage boundary surface of critical components were discussed. It was demonstrated that with the increase of the frequency parameter ratio, the decrease of the angle, and/or the increase of the mass ratio, the safety zone of critical components can be broadened, and increasing the dimensionless peak pulse acceleration or the damping ratio may lead to a decrease of the damage zone for critical components. The results may lead to a thorough understanding of the design principles for the tilted support spring nonlinear system.

Suggested Citation

  • Ningning Duan & Meng Hao & Anjun Chen, 2015. "Damage Evaluation of Critical Components of Tilted Support Spring Nonlinear System under a Rectangular Pulse," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-9, March.
  • Handle: RePEc:hin:jnlmpe:910143
    DOI: 10.1155/2015/910143
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