Partial Slip Contact Analysis on Three-Dimensional Elastic Layered Half Space

  title={Partial Slip Contact Analysis on Three-Dimensional Elastic Layered Half Space},
  author={Zhan-jiang Wang and Wenzhong Wang and Hui Wang and Dong Zhu and Yuan-zhong Hu},
  journal={Journal of Tribology-transactions of The Asme},
An elastic contact model for three-dimensional layered or coated materials under coupled normal and tangential loads, with consideration of partial slip effects, has been developed in this paper. The response functions for calculating the displacements and stresses were determined in the frequency domain by using the Papkovich–Neuber potentials. The partial slip contact problem was solved by a numerical procedure based on the conjugate Gradient method and fast Fourier transform technique. The… Expand
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  • D. Spence
  • Mathematics
  • Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences
  • 1968
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