Add to ORKGThe X-ray diffraction technique provides a non-destructive means of measuring residual stresses in polycrystalline samples. After a brief review of the principle, scope and limitations of this method, the details of the experimental procedure followed in this laboratory have been described in this report
SIGLEAvailable from British Library Lending Division - LD:3106.1229(SER/SSD--85/0005/N) / BLDSC - Br...
X-ray diffraction (XRD) is the most powerful tool for non destructive study of the fine structure of...
The X-ray diffraction method is the best, widely available, non-destructive measurement method used ...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
This guide is applicable to X-ray stress measurements on crystalline materials. There is currently n...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
Due to the individual steps of manufacturing various kinds of residual stresses and strains are indu...
SIGLEAvailable from British Library Document Supply Centre-DSC:5413.5635(no 52) / BLDSC - British Li...
The distortion of the crystal lattices in a metal under stress has provided a valuable means of stud...
X-ray stress measurement is a very useful method to evaluate the residual stress in polycrystalline ...
SIGLEAvailable from British Library Lending Division - LD:3106.1229(SER/SSD--85/0005/N) / BLDSC - Br...
X-ray diffraction (XRD) is the most powerful tool for non destructive study of the fine structure of...
The X-ray diffraction method is the best, widely available, non-destructive measurement method used ...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
This guide is applicable to X-ray stress measurements on crystalline materials. There is currently n...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
The X-ray diffraction method is arguably the most convenient method of measuring residual stresses i...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
Due to the individual steps of manufacturing various kinds of residual stresses and strains are indu...
SIGLEAvailable from British Library Document Supply Centre-DSC:5413.5635(no 52) / BLDSC - British Li...
The distortion of the crystal lattices in a metal under stress has provided a valuable means of stud...
X-ray stress measurement is a very useful method to evaluate the residual stress in polycrystalline ...
SIGLEAvailable from British Library Lending Division - LD:3106.1229(SER/SSD--85/0005/N) / BLDSC - Br...
X-ray diffraction (XRD) is the most powerful tool for non destructive study of the fine structure of...
The X-ray diffraction method is the best, widely available, non-destructive measurement method used ...