Add to ORKGA number of surface cracks with large aspect ratio have been detected in components of nuclear power plants (NPPs) in recent years. The depths of these cracks are even larger than the half of crack lengths. When a crack is detected during in-service inspections, methods provided in ASME Boiler and Pressure Vessel Code Section XI or JSME Rules on fitness-for-service for NPPs can be used to assess the structural integrity of cracked components. The solution of the stress intensity factor (SIF) is very important in the structural integrity assessment. However, in the current codes, the solutions of the SIF are provided for semi-elliptical surface cracks with a limitation of a/' 0.5, where a is the crack depth, and ' is the crack leng...
Detailed three-dimensional finite element (FE) modeling and analysis of quarter-elliptical and semi-...
When cracks are detected in piping in nuclear power plants during in-service inspections, the crack ...
AbstractWeld defects and severe variation of shape near the welds cause high stress concentration at...
The stress intensity factors (SIFs) for pipes containing semi-elliptical surface cracks with large a...
Three-dimensional finite element analyses have been conducted to calculate the stress intensity fact...
The purpose of this research is to compare both British standard BS 7910 (2013) and American standar...
Reactor Pressure Vessel (RPV) wall is an important component in the Nuclear Power Plant (NPP). Durin...
The stress-intensity factor solutions proposed for a surface crack in a finite plate subjected to un...
Empirical stress intensity factor equations are presented for embedded elliptical cracks, semi-ellip...
Flaws resulting from improper welding and forging are usually modeled as cracks in flat plates, holl...
In this paper, mode I stress intensity factors (SIFs) are calculated numerically by finite element s...
Three-dimensional finite-element and finite-alternating methods were used to obtain the stress-inten...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
The majority of fatigue cracks in thick plate and tubular sections in structural components are two...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
Detailed three-dimensional finite element (FE) modeling and analysis of quarter-elliptical and semi-...
When cracks are detected in piping in nuclear power plants during in-service inspections, the crack ...
AbstractWeld defects and severe variation of shape near the welds cause high stress concentration at...
The stress intensity factors (SIFs) for pipes containing semi-elliptical surface cracks with large a...
Three-dimensional finite element analyses have been conducted to calculate the stress intensity fact...
The purpose of this research is to compare both British standard BS 7910 (2013) and American standar...
Reactor Pressure Vessel (RPV) wall is an important component in the Nuclear Power Plant (NPP). Durin...
The stress-intensity factor solutions proposed for a surface crack in a finite plate subjected to un...
Empirical stress intensity factor equations are presented for embedded elliptical cracks, semi-ellip...
Flaws resulting from improper welding and forging are usually modeled as cracks in flat plates, holl...
In this paper, mode I stress intensity factors (SIFs) are calculated numerically by finite element s...
Three-dimensional finite-element and finite-alternating methods were used to obtain the stress-inten...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
The majority of fatigue cracks in thick plate and tubular sections in structural components are two...
The objective of this study is to present the mode I stress intensity factor distribution (SIF) alon...
Detailed three-dimensional finite element (FE) modeling and analysis of quarter-elliptical and semi-...
When cracks are detected in piping in nuclear power plants during in-service inspections, the crack ...
AbstractWeld defects and severe variation of shape near the welds cause high stress concentration at...