Cracking And Damage

Numerical Modeling of Concrete Cracking

Author : Guenter Hofstetter

Publisher : Springer Science & Business Media

Page : 330 pages

File Size : 49,1 MB

Release : 2011-10-08

Category : Technology & Engineering

ISBN : 3709108977

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Book Description

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.



Cracking and Damage

Author : Z.P. Bazant

Publisher : CRC Press

Page : 567 pages

File Size : 43,4 MB

Release : 1989-05-30

Category : Architecture

ISBN : 1482296527

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Book Description

Proceedings of the France-US Workshop on Strain Localization and Size Effect due to Cracking and Damage, Laboratorie de Mecanique et Technologie, Cachan, France, 6-9 September 1988.



Mechanical damage and crack growth in concrete

Author : Alberto Carpinteri

Publisher : Springer

Page : 234 pages

File Size : 39,55 MB

Release : 2011-09-27

Category : Science

ISBN : 9789401084345

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Book Description

Following Volumes III and IV that dealt with the fracture mechanics of concrete emphasizing both material testing and structural application in general, it was felt that specimen size and loading rate effects for concrete require further attention. The only criterion that has thus far successfully linearized the highly nonlinear crack growth data of concrete is the strain energy density theory. In particular, the crack growth resistance curves plotting the strain energy density factor versus crack growth known as the SR·curves are straight lines as specimen size and loading steps or rates are altered. This allows the extrapolation of data and provides a useful design methodology. This book is unique in that it is devoted specifically to the application of the strain energy density theory to civil engineering structural members made of concrete. Analyzed in detail is the strain softening behavior of concrete for a variety of different components including the influence of steel reinforcement. Permanent damage of the material is accounted for each increment of loading by invoking the mechanism of elastic unloading. This assumption is justified in concrete structures where the effective stiffness depends primarily on the crack growth rate and load history. Crack growth data are presented in terms of SR-curves with emphases placed on scaling specimen size which alone can change the mode of failure from plastic collapse to brittle fracture. Loading rate effects can also be scaled to control failure by yielding and fracture.



Has Your House Got Cracks?

Author : Tim Freeman

Publisher : Thomas Telford

Page : 190 pages

File Size : 41,16 MB

Release : 2002

Category : House & Home

ISBN : 9780727730893

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Book Description

Providing practical guidance for homeowners whose properties have been affected by subsidence, or heave, or who are concerned by the potential risk of damage, this second edition has been expanded to include sections on other types of subsidence and causes of damage that are unrelated to foundation movement.



Fatigue Damage, Crack Growth and Life Prediction

Author : F. Ellyin

Publisher : Springer Science & Business Media

Page : 490 pages

File Size : 29,53 MB

Release : 1996-11-30

Category : Technology & Engineering

ISBN : 0412596008

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Book Description

Fatigue failure is a multi-stage process. It begins with the initiation of cracks, and with continued cyclic loading the cracks propagate, finally leading to the rupture of a component or specimen. The demarcation between the above stages is not well-defined. Depending upon the scale of interest, the variation may span three orders of magnitude. For example, to a material scientist an initiated crack may be of the order of a micron, whereas for an engineer it can be of the order of a millimetre. It is not surprising therefore to see that investigation of the fatigue process has followed different paths depending upon the scale of phenomenon under investigation. Interest in the study of fatigue failure increased with the advent of industrial ization. Because of the urgent need to design against fatigue failure, early investiga tors focused on prototype testing and proposed failure criteria similar to design formulae. Thus, a methodology developed whereby the fatigue theories were proposed based on experimental observations, albeit at times with limited scope. This type of phenomenological approach progressed rapidly during the past four decades as closed-loop testing machines became available.



Cracking and Damage

Author : Zdenek P. Bazant

Publisher :

Page : 550 pages

File Size : 27,96 MB

Release : 1989

Category : Fracture mechanics

ISBN :

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Book Description





Cracking in Buildings

Author : R. B. Bonshor

Publisher : Building Research Establishment

Page : 108 pages

File Size : 49,39 MB

Release : 1996-01-01

Category : Technology & Engineering

ISBN : 9781860810398

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Book Description

First published in 1996. Routledge is an imprint of Taylor & Francis, an informa company.



Fatigue Damage, Crack Growth and Life Prediction

Author : F. Ellyin

Publisher : Springer Science & Business Media

Page : 484 pages

File Size : 24,46 MB

Release : 2012-12-06

Category : Technology & Engineering

ISBN : 9400915098

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Book Description

Fatigue failure is a multi-stage process. It begins with the initiation of cracks, and with continued cyclic loading the cracks propagate, finally leading to the rupture of a component or specimen. The demarcation between the above stages is not well-defined. Depending upon the scale of interest, the variation may span three orders of magnitude. For example, to a material scientist an initiated crack may be of the order of a micron, whereas for an engineer it can be of the order of a millimetre. It is not surprising therefore to see that investigation of the fatigue process has followed different paths depending upon the scale of phenomenon under investigation. Interest in the study of fatigue failure increased with the advent of industrial ization. Because of the urgent need to design against fatigue failure, early investiga tors focused on prototype testing and proposed failure criteria similar to design formulae. Thus, a methodology developed whereby the fatigue theories were proposed based on experimental observations, albeit at times with limited scope. This type of phenomenological approach progressed rapidly during the past four decades as closed-loop testing machines became available.



Mechanical damage and crack growth in concrete

Author : Alberto Carpinteri

Publisher : Springer Science & Business Media

Page : 242 pages

File Size : 41,58 MB

Release : 2012-12-06

Category : Science

ISBN : 9400943504

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Book Description

Following Volumes III and IV that dealt with the fracture mechanics of concrete emphasizing both material testing and structural application in general, it was felt that specimen size and loading rate effects for concrete require further attention. The only criterion that has thus far successfully linearized the highly nonlinear crack growth data of concrete is the strain energy density theory. In particular, the crack growth resistance curves plotting the strain energy density factor versus crack growth known as the SR·curves are straight lines as specimen size and loading steps or rates are altered. This allows the extrapolation of data and provides a useful design methodology. This book is unique in that it is devoted specifically to the application of the strain energy density theory to civil engineering structural members made of concrete. Analyzed in detail is the strain softening behavior of concrete for a variety of different components including the influence of steel reinforcement. Permanent damage of the material is accounted for each increment of loading by invoking the mechanism of elastic unloading. This assumption is justified in concrete structures where the effective stiffness depends primarily on the crack growth rate and load history. Crack growth data are presented in terms of SR-curves with emphases placed on scaling specimen size which alone can change the mode of failure from plastic collapse to brittle fracture. Loading rate effects can also be scaled to control failure by yielding and fracture.