Add to ORKGThe paper describes test specimen thickness effect on stress intensity factor (KI), and T-stresses stresses (T11 and T33) for a Compact Tension specimen. Formulations to estimate 3D KI, T11 and T33 stresses are proposed based on extensive 3D Finite element analyses. These formulations help to estimate magnitudes of 3D KI and T11 and T33 which are helpful to quantify in-plane and out-of- plane constraint effect of the crack tip. The proposed formulations are validated with the similar results available in literature and found to be within acceptable error
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The paper describes test specimen thickness effect on stress intensity factor (KI), and T-stresses s...
Non-singular terms in the series expansion of the elastic crack-tip stress fields, commonly referred...
In this work, a systematic investigation of three-dimensional (3D) T-stresses (T 11 and T 33 ) was c...
In the present paper, a crack compliance analysis approach and extensive three-dimensional finite el...
This paper describes a study of the test specimen thickness effect on fracture toughness of a materi...
It is well known that value of fracture toughness depends on the thickness of studied specimen. Thi...
The stress-intensity factors for most of the commonly used fracture specimens (center-crack tension,...
Failure of structure and component happen due to propagation of crack. Determination of stress inte...
The influence of in- and out- of plane constraints on the behaviour of a crack under mode I loading ...
Three-dimensional elastic-plastic problems for a power-law hardening material are solved using thefi...
Three-dimensional (3D) finite element analyses (FEA) of clamped single-edge notched tension (SENT) s...
In the present paper, three-dimensional clamped SENT specimens, which is one of the most widely used...
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...
The paper describes test specimen thickness effect on stress intensity factor (KI), and T-stresses s...
Non-singular terms in the series expansion of the elastic crack-tip stress fields, commonly referred...
In this work, a systematic investigation of three-dimensional (3D) T-stresses (T 11 and T 33 ) was c...
In the present paper, a crack compliance analysis approach and extensive three-dimensional finite el...
This paper describes a study of the test specimen thickness effect on fracture toughness of a materi...
It is well known that value of fracture toughness depends on the thickness of studied specimen. Thi...
The stress-intensity factors for most of the commonly used fracture specimens (center-crack tension,...
Failure of structure and component happen due to propagation of crack. Determination of stress inte...
The influence of in- and out- of plane constraints on the behaviour of a crack under mode I loading ...
Three-dimensional elastic-plastic problems for a power-law hardening material are solved using thefi...
Three-dimensional (3D) finite element analyses (FEA) of clamped single-edge notched tension (SENT) s...
In the present paper, three-dimensional clamped SENT specimens, which is one of the most widely used...
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
The Compact Tension Shear (CTS) specimen is used to study fracture and fatigue under mixed mode I/II...
Failure of cracked components is governed by the stresses in the vicinity of the crack tip. The sing...