Accelerated Drop Test Simulation using Relative Coordinate Solution and Finite Element Method

Jisong Sun, Youcheng Li, Eng Hong Ong, 2004, Asia-Pacific Magnetic Recording Conference, APMRC, Soeul, August 2004, pp 56-57.

• Abstract

  Shock resistance of hard disk drives (HDDs) tends to be a critical issue with the rapid growth of portable consumer electronics such as notebooks, PDAs, and digital cameras. Finite element method (FEM) is widely used in simulating drop test. However, it is computationally expensive. An accelerated drop test method, which adopts relative coordinate and recursive solutions, is developed. The computational time is drastically reduced without suffering a significant loss in accuracy. By adopting this method, designers can evaluate the shock resistance of a HDD quickly so that they can have more time to optimize the shock performance of HDDs. Moreover, they can simulate the whole process, instead of simulating just a brief moment of head-disk collision.

  How Multibody Dynamics Simulation Technology is Used

  RecurDyn reduced computation time for drop tests of hard disk drives while obtaining similar levels of accuracy compared to nonlinear FEA. Computational time for the entire model was reduced from over 1 day to ½ hour.

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