The work presented here utilises features of laser generated ultrasound for the detection of defects in solids. Ultrasound is generated noncontactively by this method and likewise many of the detection devices used do not require direct coupling to the test pieces, thus acoustic pulses with high frequency components are able to be produced and monitored on a range of samples. Steel samples coated with between 3 and 7mm of plasma-transferred arc depositions are examined for bond quality via measurements of attenuation caused by porosity in the coatings, found to be related to weld current. Surface breaking cracks, (of depth < 3mm), in such claddings are quantitatively detected by a method which utilises Rayleigh pulses. A two sided autom...
The quality of additive manufacturing (AM) components must be guaranteed to ensure wide applicabilit...
Ultrasonic methods are well known as powerful and reliable tool for defect detection. Conventional u...
The aim of this thesis is to characterise the interaction between pulsed, high power, 10.6 μm radiat...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The generation of ultrasound by laser interaction with materials was first studied by White in 1963....
The generation of ultrasound by laser interaction with materials was first studied by White in 1963....
Increased use of advanced materials and more stringent requirements for process and quality control ...
To compliment non-contacting ultrasonic generation using lasers, it is ideal to have a remote, non-c...
This thesis describes the investigations conducted into the characterisation of various defects with...
This work envisages a detailed study of two-dimensional defect localization and reconstruction, usin...
Ultrasound is today one of the commonest nondestructive methods in industry, in particular for the i...
The use of lasers for generating and detecting ultrasound is becoming more established in NDT. Howev...
Many of the traditional NDE techniques of the past are today being investigated for their potential ...
The quality of additive manufacturing (AM) components must be guaranteed to ensure wide applicabilit...
Ultrasonic methods are well known as powerful and reliable tool for defect detection. Conventional u...
The aim of this thesis is to characterise the interaction between pulsed, high power, 10.6 μm radiat...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The work presented here utilises features of laser generated ultrasound for the detection of defects...
The generation of ultrasound by laser interaction with materials was first studied by White in 1963....
The generation of ultrasound by laser interaction with materials was first studied by White in 1963....
Increased use of advanced materials and more stringent requirements for process and quality control ...
To compliment non-contacting ultrasonic generation using lasers, it is ideal to have a remote, non-c...
This thesis describes the investigations conducted into the characterisation of various defects with...
This work envisages a detailed study of two-dimensional defect localization and reconstruction, usin...
Ultrasound is today one of the commonest nondestructive methods in industry, in particular for the i...
The use of lasers for generating and detecting ultrasound is becoming more established in NDT. Howev...
Many of the traditional NDE techniques of the past are today being investigated for their potential ...
The quality of additive manufacturing (AM) components must be guaranteed to ensure wide applicabilit...
Ultrasonic methods are well known as powerful and reliable tool for defect detection. Conventional u...
The aim of this thesis is to characterise the interaction between pulsed, high power, 10.6 μm radiat...
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