Methods For Analysis Of Cracks In Three Dimensional Solids


Analysis of Cracks in Solids

Author : A. M. Khludnev

Publisher : Computational Mechanics

Page : 416 pages

File Size : 49,94 MB

Release : 2000

Category : Technology & Engineering

ISBN :

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Book Description

The need for progress in modelling and analysis of crack problems in solids has resulted in renewed attempts at using modern approaches to boundary value problems. By taking a different viewpoint on the traditional treatment of many problems, such as crack theory, the range that can be resolved through mathematical tools is enlarged. This book provides a fresh outlook on crack problems, displaying new methods of studying these and proposing new models for cracks in elastic and nonelastic bodies satisfying physically suitable nonpenetration conditions between crack faces. Two- and three-dimensional bodies, plates and shells with cracks are considered. Properties of solutions such as existence of solutions, regularity up to the crack faces, and convergence of solutions as parameters of a system are varying are established, while different constitutive laws such as elastic, thermoelastic and elastoplastic are also analysed. The new approach presented by the authors is intriguing because it fails to lead to violation of physical properties. In addition, the boundary conditions analysed are given in the form of inequalities, and are properly nonpenetration conditions of crack faces. Thi



Three-Dimensional Crack Analysis in Solid Propellant by an Hybrid Stress Finite Element Method

Author : C. W Springfield (Jr)

Publisher :

Page : 12 pages

File Size : 22,94 MB

Release : 1984

Category :

ISBN :

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Book Description

Numerical analysis methods for cracks in solid propellant grains should include the proper stress singularity and account for material incompressibility. An hybrid stress finite element method for the three-dimensional analysis of straight crack fronts has been developed. A modification to extend the method to curved crack fronts is proposed. (Author).





Finite Element Analysis of Creep and Three Dimensional Fracture

Author : Theodore H. H. Pian

Publisher :

Page : 70 pages

File Size : 20,91 MB

Release : 1978

Category : Finite element method

ISBN :

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Book Description

Assumed stress hybrid finite element methods are developed for linear fracture analysis of three dimensional solids and for fracture of metals under high temperature creep conditions. For the 3-D fracture analysis a series of special elements with hexagonal shape have been derived. These elements include the asymptotic singular behavior at the crack tip front. For the fracture analysis of metals at high temperature, a method has been developed to analyze plane problems with growing cracks. From a comprehensive literature survey made for both analytical and experimental studies of crack growth under creep conditions, it is concluded that a possible numerical method is to incorporate the concept of damage parameter by Kachanov. Preliminary development in incorporating such parameter in the finite element creep analysis has been made. (Author).



Three-dimensional Elastic Stress and Displacement Analysis of Finite Circular Geometry Solids Containing Cracks

Author : John P. Gyekenyesi

Publisher :

Page : 52 pages

File Size : 22,17 MB

Release : 1973

Category : Elasticity

ISBN :

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Book Description

A seminumerical method is presented for solving a set of coupled partial differential equations subject to mixed and coupled boundary conditions. The use of this method is illustrated by obtaining solutions for two circular geometry and mixed boundary value problems in three-dimensional elasticity. Stress and displacement distributions are calculated in an axisymmetric, circular bar of finite dimensions containing a penny-shaped crack. Approximate results for an annular plate containing internal surface cracks are also presented.





Stress Analysis in Elastic Solids with Many Cracks

Author : Mark Kachanov

Publisher :

Page : 14 pages

File Size : 22,8 MB

Release : 1987

Category : Elastic solids

ISBN :

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Book Description

To develop a new method of analysis of many cracks problems in elastic solids that is sufficiently simple and applicable to both two- and three dimensional configurations, and to apply it to a number of practically important problems involving multiple cracking. Such methods has been developed and its accuracy was verified by checking the results against the solutions available in the literature. The new method has been applied to solving a number of problems. Keywords: Stress analysis, Elastic solids, Crack problems, Multiple cracking.





Hybrid Crack Elements for Three-Dimensional Solids and Plate Bending

Author : Kazumasa Moriya

Publisher :

Page : 263 pages

File Size : 14,53 MB

Release : 1977

Category : Bending moment

ISBN :

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Book Description

Special crack front elements have been developed and have been assembled into superelements for direct evaluation of stress intensity factors K(I), K(II), and K(III) of arbitrarily shaped three-dimensional cracks. The formulation is based on the assumed stress hybrid finite element model. The assumption of stresses and boundary displacements contains asymptotically exact terms. The stress-free condition over the crack surface and the displacement compatibility across interelement boundaries are completely satisfied. The superelements are compatible with most existing finite element computer programs. Numerical results for commonly used fracture test specimens (single edge crack specimen, center crack specimen, double edge crack specimen and compact tension specimen), an embedded penny-shaped crack, a semi-circular surface flaw, and a quarter-circular corner flaw are presented. A superelement has been developed directly for the analysis of bending and shearing stress intensity factors, K(B) and K(S), of thin plates with a through-the-thickness crack subjected to out of plane bending. The particular approach is also based on the hybrid element concept, for which the assumed stresses satisfy both equilibrium and compatibility conditions. Poisson-Kirchhoff's thin plate theory and the complex variable technique are used.