论文信息 - Analysis of crack propagation in strain-softening beams

Analysis of crack propagation in strain-softening beams

Abstract An analytical investigation for the propagation of cohesive cracks in a beam of quasi-brittle material such as concrete is presented using the fictitious crack model (FCM) developed by Hillerborg et al. for concrete. The stress–displacement relation is assumed as a generalized power law function. Expressions for moment–rotation relations are given. The analysis gives the effect of the softening exponent n on the size effect and snapback behavior of beams of softening materials. The effect of the elasticity co-efficient k of the central elastic layer on moment–rotation relation is also determined. A method to determine n and k from experiments is suggested.

[1] J. Willis,et al. A comparison of the fracture criteria of griffith and barenblatt , 1967 .

[2] Chuang Tze-jer,et al. Flexural behavior of strain-softening solids , 1989 .

[3] Alberto Carpinteri,et al. Fracture of reinforced concrete: scale effects and snap-back instability , 1990 .

[4] Rune Brincker,et al. Fictitious crack model of concrete fracture , 1989 .

[5] D. S. Dugdale. Yielding of steel sheets containing slits , 1960 .

[6] H. Ananthan,et al. Influence of strain softening on the fracture of plain concrete beams , 1990 .

[7] H. Reinhardt. Fracture Mechanics of an Elastic Softening Material like Concrete , 1984 .

[8] G. I. Barenblatt. THE MATHEMATICAL THEORY OF EQUILIBRIUM CRACKS IN BRITTLE FRACTURE , 1962 .

[9] J. Rice. A path-independent integral and the approximate analysis of strain , 1968 .

[10] A. Hillerborg,et al. Analysis of crack formation and crack growth in concrete by means of fracture mechanics and finite elements , 1976 .

[11] Steen Krenk,et al. Analytical Model for Fictitious Crack Propagation in Concrete Beams , 1995 .

[12] Walter H. Gerstle,et al. Crack Growth in Flexural Members--A Fracture Mechanics Approach , 1992 .

[13] J. Ožbolt,et al. Size Effect in Concrete Structures , 2018, Applications of Fracture Mechanics to Reinforced Concrete.

[14] Jin-Keun Kim,et al. Size effect in concrete specimens with dissimilar initial cracks , 1990 .