Difference between revisions of "Gen-hua Shi"

From Engineering Computing Online
Jump to navigation Jump to search
(Publications)
 
(One intermediate revision by the same user not shown)
Line 1: Line 1:
 +
[[File:GenhuaShi.jpg|thumb]]
 
Dr. '''Gen-hua Shi''', acknowledged as a professional consultant in rock and structure engineering, is the chairman of the DDA Company in California, USA, and the chief scientist of the Discontinuous Deformation Analysis Laboratory, Yangtze River Scientific Research Institute. He obtained his BSc and MEng from Beijing University, China respectively in 1963 and 1968, and his PhD from University of California at Berkeley, USA in 1988. He put forward the Key Block theory and Discontinuous Deformation Analysis method, which are now widely studied and applied in rock mechanics and rock engineering fields. He is also the inventor of the Numerical Manifold Method, which is a novel method for the analysis of both continuous and discontinuous material behaviors. He has been actively involved in many worldly famous projects related to rock mechanics in-situ test, nuclear waste storage, blasting design of rock engineering, stability analysis of rock slopes and rock foundations, underground excavation support design and construction, and dam design and dam foundation analysis, etc. His papers have appeared in profound journals, and in significant conferences such as the series of North American Rock Mechanics Symposiums, the series of Conferences on Analysis of Discontinuous Deformation, etc. He also received the China Natural Science Award and some other international awards.
 
Dr. '''Gen-hua Shi''', acknowledged as a professional consultant in rock and structure engineering, is the chairman of the DDA Company in California, USA, and the chief scientist of the Discontinuous Deformation Analysis Laboratory, Yangtze River Scientific Research Institute. He obtained his BSc and MEng from Beijing University, China respectively in 1963 and 1968, and his PhD from University of California at Berkeley, USA in 1988. He put forward the Key Block theory and Discontinuous Deformation Analysis method, which are now widely studied and applied in rock mechanics and rock engineering fields. He is also the inventor of the Numerical Manifold Method, which is a novel method for the analysis of both continuous and discontinuous material behaviors. He has been actively involved in many worldly famous projects related to rock mechanics in-situ test, nuclear waste storage, blasting design of rock engineering, stability analysis of rock slopes and rock foundations, underground excavation support design and construction, and dam design and dam foundation analysis, etc. His papers have appeared in profound journals, and in significant conferences such as the series of North American Rock Mechanics Symposiums, the series of Conferences on Analysis of Discontinuous Deformation, etc. He also received the China Natural Science Award and some other international awards.
  
Line 7: Line 8:
 
#Shi, G.H. (1996). Simplex integration for manifold method, FEM, DDA and analytical analysis. Proceeding first International Forum on Discontinuous Deformation Analysis (DDA) and Simulations of Discontinuous Media, TSI Press, Albuquerque, NM, Mexico, 205-262.
 
#Shi, G.H. (1996). Simplex integration for manifold method, FEM, DDA and analytical analysis. Proceeding first International Forum on Discontinuous Deformation Analysis (DDA) and Simulations of Discontinuous Media, TSI Press, Albuquerque, NM, Mexico, 205-262.
 
#Shi, G.H. (2006). Producing Joint Polygons, cutting joint blocks and finding key blocks for general free surfaces. Chinese Journal of Rock Mechanics and Engineering, 25: 2161-2170.
 
#Shi, G.H. (2006). Producing Joint Polygons, cutting joint blocks and finding key blocks for general free surfaces. Chinese Journal of Rock Mechanics and Engineering, 25: 2161-2170.
 +
#SHI GenHua (2015). Contact theory. Special Issue on Rock Fractures and Discontinuities: Modeling and Analysis, Science China - Technological Sciences, 25(9): 1450-1496.

Latest revision as of 02:40, 24 July 2019

GenhuaShi.jpg

Dr. Gen-hua Shi, acknowledged as a professional consultant in rock and structure engineering, is the chairman of the DDA Company in California, USA, and the chief scientist of the Discontinuous Deformation Analysis Laboratory, Yangtze River Scientific Research Institute. He obtained his BSc and MEng from Beijing University, China respectively in 1963 and 1968, and his PhD from University of California at Berkeley, USA in 1988. He put forward the Key Block theory and Discontinuous Deformation Analysis method, which are now widely studied and applied in rock mechanics and rock engineering fields. He is also the inventor of the Numerical Manifold Method, which is a novel method for the analysis of both continuous and discontinuous material behaviors. He has been actively involved in many worldly famous projects related to rock mechanics in-situ test, nuclear waste storage, blasting design of rock engineering, stability analysis of rock slopes and rock foundations, underground excavation support design and construction, and dam design and dam foundation analysis, etc. His papers have appeared in profound journals, and in significant conferences such as the series of North American Rock Mechanics Symposiums, the series of Conferences on Analysis of Discontinuous Deformation, etc. He also received the China Natural Science Award and some other international awards.

Publications

  1. Shi, G.H. (1988). Discontinuous Deformation Analysis: A New Numerical Model for the Statics and Dynamics of Block Systems. PhD Thesis. University of California, Berkeley.
  2. Shi, G.H. (1991). Manifold method of material analysis. Transaction of the 9th Army Conference on Applied Mathematics and Computing, Minneapolis, Minnesota, 57-76.
  3. Shi, G.H. (1996). Manifold method. Proceedings of first International Forum on Discontinuous Deformation Analysis (DDA) and Simulations of Discontinuous Media. TSI Press, Albuquerque, NM, Mexico, 52-204.
  4. Shi, G.H. (1996). Simplex integration for manifold method, FEM, DDA and analytical analysis. Proceeding first International Forum on Discontinuous Deformation Analysis (DDA) and Simulations of Discontinuous Media, TSI Press, Albuquerque, NM, Mexico, 205-262.
  5. Shi, G.H. (2006). Producing Joint Polygons, cutting joint blocks and finding key blocks for general free surfaces. Chinese Journal of Rock Mechanics and Engineering, 25: 2161-2170.
  6. SHI GenHua (2015). Contact theory. Special Issue on Rock Fractures and Discontinuities: Modeling and Analysis, Science China - Technological Sciences, 25(9): 1450-1496.