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Author:

Wang, G. (Wang, G..) | Lu, D. (Lu, D..) | Du, X. (Du, X..) | Li, M. (Li, M..) (Scholars:栗觅)

Indexed by:

Scopus PKU CSCD

Abstract:

The classical strength criteria including Mohr-Coulomb strength theory, Drucker-Prager strength theory, Matsuoka-Nakai strength theory, Lade-Duncan strength criterion and Hoek-Brown strength criterion are developed into dynamic multiaxial strength criteria by deriving the strain-rate-dependent strength parameters of each static strength criterion. The strain-rate-dependent strength parameters are obtained by combing the dynamic uniaxial S criterion and the basic strength indexes of concrete material. Then the change rules and value range of strength parameters of five strength criteria are analyzed by these statistical material parameters of S criterion. On the basis of the uniaxial compressive and tensile strengths of concrete, the strength curves of each dynamic multiaxial strength criterion at plane stress condition, meridian plane, deviatoric plane and the strength surfaces in the principle stress space are given. Then the differences of the five dynamic multiaxial strength criteria are analyzed. The five dynamic strength criteria are evaluated by the dynamic biaxial and true triaxial strength tests. The dynamic Drucker-Prager criterion shows big differences with the dynamic test results of concrete. All of the dynamic strength criteria are able to reasonably describe the strength rules under biaxial compression-tension. It also shows big difference among these dynamic strength criteria, while the dynamic Matsuoka-Nakai criteria describes the strength rules better than others. Under dynamic true triaxial proportional loading, Mohr-Coulomb and Hoek-Brown strength criteria cannot consider the influences of intermediate principal stress, while the Matsuoka-Nakai and Lade-Duncan strength criteria are capable of well describing the test results of concrete. © 2016, Editorial Office of Chinese Journal of Theoretical and Applied Mechanics. All right reserved.

Keyword:

Concrete; Dynamic multiaxial strength; Static multiaxial strength; Strain rate; Strength criterion

Author Community:

  • [ 1 ] [Wang, G.]Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing Univ. of Technology, Beijing, 100124, China
  • [ 2 ] [Lu, D.]Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing Univ. of Technology, Beijing, 100124, China
  • [ 3 ] [Du, X.]Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing Univ. of Technology, Beijing, 100124, China
  • [ 4 ] [Li, M.]Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing Univ. of Technology, Beijing, 100124, China

Reprint Author's Address:

  • [Du, X.]Key Laboratory of Urban Security and Disaster Engineering of Ministry of Education, Beijing Univ. of TechnologyChina

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Source :

Chinese Journal of Theoretical and Applied Mechanics

ISSN: 0459-1879

Year: 2016

Issue: 3

Volume: 48

Page: 637-653

Cited Count:

WoS CC Cited Count:

SCOPUS Cited Count: 10

ESI Highly Cited Papers on the List: 0 Unfold All

WanFang Cited Count:

Chinese Cited Count:

30 Days PV: 5

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