Add to ORKGA simple technique was developed using conventional finite element analysis to determine stress intensity factors, K1 and K2, for interface cracks under mixed-mode loading. This technique involves the calculation of crack tip stresses using non-singular finite elements. These stresses are then combined and used in a linear regression procedure to calculate K1 and K2. The technique was demonstrated by calculating three different bimaterial combinations. For the normal loading case, the K's were within 2.6 percent of an exact solution. The normalized K's under shear loading were shown to be related to the normalized K's under normal loading. Based on these relations, a simple equation was derived for calculating K1 and K2 for mixed-mode loadi...
Fiber/matrix (F/M) cracking was analyzed to provide better understanding and guidance in developing ...
AbstractIn this paper, the stress intensity factors (SIFs) of a single edge interface crack in the b...
This research explores the modeling of a cracked structure using a linear elastic finite element met...
In bi-material joints cracks can propagate along the interface or kink into one of the two materials...
Because of violently oscillating nature of stress and displacement fields near the crack tip, it is ...
Bi-material interface and multi-layer systems are widely observed in modern microelectronic applicat...
Abstract. This paper presents the simple method to determine the complex stress intensity factor of ...
In this paper, a mixed mode interfacial crack in three dimensional bimaterials is analyzed by singul...
In this study, a simple method to determine the complex stress intensity factor of interface crack p...
This paper aims to calculate the mixed-mode stress intensity factors (SIFs) of a three-dimensional c...
The present study was undertaken in order to develop test methods and procedures for measuring the v...
Many problems of interfacial cracks are three dimensional in nature. Three-dimensional cracks at an ...
An experimental method for determining mixed mode stress intensity factors, crack tip location, and ...
In this paper interfacial edge crack problems are considered by the application of the finite elemen...
Fracture on bimaterial interfaces is an important consideration in the design and application of com...
Fiber/matrix (F/M) cracking was analyzed to provide better understanding and guidance in developing ...
AbstractIn this paper, the stress intensity factors (SIFs) of a single edge interface crack in the b...
This research explores the modeling of a cracked structure using a linear elastic finite element met...
In bi-material joints cracks can propagate along the interface or kink into one of the two materials...
Because of violently oscillating nature of stress and displacement fields near the crack tip, it is ...
Bi-material interface and multi-layer systems are widely observed in modern microelectronic applicat...
Abstract. This paper presents the simple method to determine the complex stress intensity factor of ...
In this paper, a mixed mode interfacial crack in three dimensional bimaterials is analyzed by singul...
In this study, a simple method to determine the complex stress intensity factor of interface crack p...
This paper aims to calculate the mixed-mode stress intensity factors (SIFs) of a three-dimensional c...
The present study was undertaken in order to develop test methods and procedures for measuring the v...
Many problems of interfacial cracks are three dimensional in nature. Three-dimensional cracks at an ...
An experimental method for determining mixed mode stress intensity factors, crack tip location, and ...
In this paper interfacial edge crack problems are considered by the application of the finite elemen...
Fracture on bimaterial interfaces is an important consideration in the design and application of com...
Fiber/matrix (F/M) cracking was analyzed to provide better understanding and guidance in developing ...
AbstractIn this paper, the stress intensity factors (SIFs) of a single edge interface crack in the b...
This research explores the modeling of a cracked structure using a linear elastic finite element met...