For many components and structures there is still the need to develop new ultrasonic non-destructive techniques, which enable both defect detection and quantitative characterisation of the defects in the material
The stress wave factor (SWF) signal is utilized for the nondestructive evaluation of plates containi...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In 1980–81, Harwell developed a mini-computer controlled multi-probe defect detection and sizing sys...
Accurate calculation of the stress intensity factor on a given component under load relies on an acc...
Research concerning bulk and surface wave methods for the measurement of the depth of surface-breaki...
When a surface containing a surface-breaking crack is directly accessible for the generation of ultr...
The integrity of reactor pressure vessels is primarily affected by the presence of fatigue cracks. T...
Reliable and accurate characterization as to type (cracks vs. others), location (highly stressed zon...
The ultrasonic detection (discrimination from geometrical reflectors) and sizing of intergranular st...
The development of non-destructive testing techniques which provide reliable quantitative defect cha...
The ultrasonic pulse echo technique is a highly sensitive nondestructive method for detecting small ...
The international activities in developing new flaw characterization methods with special emphasis o...
This paper describes a method for determining the depth of machined slots simulating cracks by the u...
An automated multiviewing ultrasonic transducer and a first generation signal processing program hav...
The detection of fatigue cracks at fasteners in the sub layers of multi-layered aircraft structures ...
The stress wave factor (SWF) signal is utilized for the nondestructive evaluation of plates containi...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In 1980–81, Harwell developed a mini-computer controlled multi-probe defect detection and sizing sys...
Accurate calculation of the stress intensity factor on a given component under load relies on an acc...
Research concerning bulk and surface wave methods for the measurement of the depth of surface-breaki...
When a surface containing a surface-breaking crack is directly accessible for the generation of ultr...
The integrity of reactor pressure vessels is primarily affected by the presence of fatigue cracks. T...
Reliable and accurate characterization as to type (cracks vs. others), location (highly stressed zon...
The ultrasonic detection (discrimination from geometrical reflectors) and sizing of intergranular st...
The development of non-destructive testing techniques which provide reliable quantitative defect cha...
The ultrasonic pulse echo technique is a highly sensitive nondestructive method for detecting small ...
The international activities in developing new flaw characterization methods with special emphasis o...
This paper describes a method for determining the depth of machined slots simulating cracks by the u...
An automated multiviewing ultrasonic transducer and a first generation signal processing program hav...
The detection of fatigue cracks at fasteners in the sub layers of multi-layered aircraft structures ...
The stress wave factor (SWF) signal is utilized for the nondestructive evaluation of plates containi...
The evaluation of integrity of critical structures and parts is of vital importance for the maintena...
In 1980–81, Harwell developed a mini-computer controlled multi-probe defect detection and sizing sys...