RILEM TC QFS Quasibrittle fracture scaling and size effect- Final report

Z. P. Bažant, R. Gettu, M. Jirásek, B. I G Barr, I. Carol, A. Carpinteri, M. Elices, C. Huet, H. Mihashi, K. M. Nemati, J. Planas, F. J. Ulm, J. G M Van Mier, M. R A Van Vliet, S. Burtscher, B. Chiaia, J. P. Dempsey, G. Ferro, V. S. Gopalaratnam, P. PratK. Rokugo, V. E. Saouma, V. Slowik, L. Vitek, K. Willam

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50 Scopus citations

Abstract

The report attempts a broad review of the problem of size effect or scaling of failure, which has recently come to the forefront of attention because of its importance for concrete and geotechnical engineering, geomechanics, arctic ice engineering, as well as in designing large load-bearing parts made of advanced ceramics and composites, e.g. for aircraft or ships. First the main results of Weibull statistical theory of random strength are briefly summarized and its applicability and limitations described. In this theory as well as plasticity, elasticity with a strength limit, and linear elastic fracture mechanics (LEFM), the size effect is a simple power law because no characteristic size or length is present. Attention is then focused on the deterministic size effect in quasibrittle materials which, because of the existence of a non-negligible material length characterizing the size of the fracture process zone, represents the bridging between the simple power-law size effects of plasticity and of LEFM. The energetic theory of quasibrittle size effect in the bridging region is explained and then a host of recent refinements, extensions and ramifications are discussed. Comments on other types of size effect, including that which might be associated with the fractal geometry of fracture, are also made. The historical development of the size effect theories is outlined and the recent trends of research are emphasized.

Original languageEnglish (US)
Pages (from-to)547-568
Number of pages22
JournalMaterials and Structures/Materiaux et Constructions
Volume37
Issue number272
DOIs
StatePublished - Oct 2004

ASJC Scopus subject areas

  • Civil and Structural Engineering
  • Building and Construction
  • Materials Science(all)
  • Mechanics of Materials

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