The book presents the underlying theories of the different approaches for modeling cracking of concrete and provides a critical survey of the state-of-the-art in computational concrete mechanics. It covers a broad spectrum of topics related to modeling of cracks, including continuum-based and discrete crack models, meso-scale models, advanced discretization strategies to capture evolving cracks based on the concept of finite elements with embedded discontinuities and on the extended finite element method, and extensions to coupled problems such a hygro-mechanical problems as required in computational durability analyses of concrete structures.
Author(s): Milan Jirásek (auth.), Günter Hofstetter, Günther Meschke (eds.)
Series: CISM International Centre for Mechanical Sciences 532
Edition: 1
Publisher: Springer-Verlag Wien
Year: 2011
Language: English
Pages: 328
Tags: Building Materials; Computational Science and Engineering; Structural Materials
Front Matter....Pages i-vii
Damage and Smeared Crack Models....Pages 1-49
Cracking and Fracture of Concrete at Meso-level using Zero-thickness Interface Elements....Pages 51-97
Crack Models with Embedded Discontinuities....Pages 99-159
Plasticity based crack models and applications....Pages 161-219
Crack models based on the extended finite element method....Pages 221-264
Smeared Crack and X-FEM Models in the Context of Poromechanics....Pages 265-327
