Fracture mechanics of interfaces

It is suggested that energy release rate, rather than stress intensity factors, is a more appropriate parameter for characterizing the occurrence of interfacial fracture. Topics on the competition between crack penetration and deflection at an interface, delamination of laminated beams, and fracture models for fiber-reinforced composite materials relevant to the debonding of the fiber-matrix interface are reviewed with an emphasis on the energy release rate approach

[1]  M. Williams,et al.  Stress Singularities Resulting From Various Boundary Conditions in Angular Corners of Plates in Extension , 1952 .

[2]  M. Williams The stresses around a fault or crack in dissimilar media , 1959 .

[3]  John R. Rice,et al.  The Bending of Plates of Dissimilar Materials With Cracks , 1964 .

[4]  J. Rice,et al.  Plane Problems of Cracks in Dissimilar Media , 1965 .

[5]  R. Salganik,et al.  The strength of adhesive joints using the theory of cracks , 1965 .

[6]  A. H. England A Crack Between Dissimilar Media , 1965 .

[7]  David B. Bogy,et al.  Edge-Bonded Dissimilar Orthogonal Elastic Wedges Under Normal and Shear Loading , 1968 .

[8]  J. Willis,et al.  Fracture mechanics of interfacial cracks , 1971 .

[9]  J.A.G. Thomas The properties of fibre composites: Teddington, Middlesex, UK, 4 November 1971 National Physical Laboratory Conference , 1972 .

[10]  M. Toya,et al.  A crack along the interface of a circular inclusion embedded in an infinite solid , 1974 .

[11]  M. Toya Debonding along the interface of an elliptic rigid inclusion , 1975, International Journal of Fracture.

[12]  Kevin Kendall,et al.  Transition between cohesive and interfacial failure in a laminate , 1975, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[13]  E. F. Rybicki,et al.  An Energy Release Rate Approach For Stable Crack Growth in the Free-Edge Delamination Problem , 1977 .

[14]  Maria Comninou,et al.  The Interface Crack , 1977 .

[15]  M. Kanninen,et al.  A finite element calculation of stress intensity factors by a modified crack closure integral , 1977 .

[16]  G. B. Sinclair On the stress singularity at an interface crack , 1980 .

[17]  A. Kelly,et al.  Tensile first cracking strain and strength of hybrid composites and laminates , 1980, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[18]  Leon M Keer,et al.  A No-Slip Interface Crack , 1980 .

[19]  W. Knauss,et al.  One dimensional modelling of failure in laminated plates by delamination buckling , 1981 .

[20]  S. Nemat-Nasser,et al.  On Branched, Interface Cracks , 1981 .

[21]  L. W. Rehfield,et al.  Toward a New Engineering Theory of Bending: Fundamentals , 1982 .

[22]  C. Atkinson,et al.  The rod pull out problem, theory and experiment , 1982 .

[23]  W. C. Cooley,et al.  Mechanics of Brittle Fracture , 1982 .

[24]  Su Su Wang,et al.  Fracture Mechanics for Delamination Problems in Composite Materials , 1983 .

[25]  F. Erdogan,et al.  Stress intensity factors in two bonded elastic layers containing cracks perpendicular to and on the interface—I. Analysis , 1983 .

[26]  F. Erdogan,et al.  Stress intensity factors in two bonded elastic layers containing cracks perpendicular to and on the interface—II. Solution and results☆ , 1983 .

[27]  A. Kelly,et al.  Toughening of cement and other brittle solids with fibres , 1983, Philosophical transactions of the Royal Society of London. Series A: Mathematical and physical sciences.

[28]  Anthony G. Evans,et al.  On the mechanics of delamination and spalling in compressed films , 1984 .

[29]  A. Evans,et al.  The mechanics of matrix cracking in brittle-matrix fiber composites , 1985 .

[30]  Michael F. Ashby,et al.  The fracture and toughness of woods , 1985, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[31]  H. Homma,et al.  The Mechanism of Stable Crack Growth in CFRP , 1986 .

[32]  A. Evans,et al.  Matrix fracture in fiber-reinforced ceramics , 1986 .

[33]  E. Armanios,et al.  Design Analysis and Testing for Mixed-Mode and Mode II Interlaminar Fracture of Composites , 1986 .

[34]  John W. Hutchinson,et al.  Crack Paralleling an Interface Between Dissimilar Materials , 1987 .

[35]  C. Shih,et al.  Elastic-Plastic Analysis of Cracks on Bimaterial Interfaces: Part I—Small Scale Yielding , 1988 .

[36]  Y. Takao,et al.  Interaction Between Cracks Perpendicular to and on the Interface in Composite Materials , 1988 .

[37]  Toshio Hattori,et al.  A Stress Singularity Parameter Approach for Evaluating Adhesive Strength , 1988 .

[38]  James R. Rice,et al.  Elastic Fracture Mechanics Concepts for Interfacial Cracks , 1988 .

[39]  Ryoji Yuuki,et al.  Boundary Element Analysis of Stress Intensity Factors for An Interface Crack in Dissimilar Materials , 1989 .

[40]  David M. Parks,et al.  Elastic Yield Zone Around an Interfacial Crack Tip , 1989 .

[41]  J. Hutchinson,et al.  Kinking of A Crack Out of AN Interface , 1989 .

[42]  John W. Hutchinson,et al.  Crack deflection at an interface between dissimilar elastic-materials , 1989 .

[43]  B. Budiansky,et al.  Toughening by aligned, frictionally constrained fibers , 1989 .

[44]  A. Evans,et al.  A Test Specimen for Determining the Fracture Resistance of Bimaterial Interfaces , 1989 .

[45]  Ephraim Suhir,et al.  Interfacial Stresses in Bimetal Thermostats , 1989 .

[46]  M. Toya,et al.  Analyses of Delamination of Notched Laminated Beams by Three-Point Bend Test Based on the Theory of Large Deflection , 1989 .

[47]  M. Thouless A re-examination of the analysis of toughening in brittle-matrix composites , 1989 .

[48]  M. Toya,et al.  Analyses of Delamination of Laminated Beams Subjected to Three and Four-Point Bending. , 1991 .