Add to ORKGDue to the individual steps of manufacturing various kinds of residual stresses and strains are induced in devices and components of microsystems. Often these residual stress states differ considerably from those determined in well known conventional materials and materials compounds. This is caused by the small dimensions of the single components and by the great variety of materials combinations used. X-ray diffraction is a powerful tool also for the investigation of the residual stress states in microsystems, because it enables the non-destructive testing of materials and components and the investigation of very small measurement volumes. Due to the small thickness of the single layers in multi-layered microsystems the X-rays penetrate i...
The detection of near surface residual stress gradients in real space requires high depth resolution...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
In order to predict the durability of engineering components and improve performance, it is mandator...
In this paper, different kinds of residual stresses during the manufacture of microsystems and micro...
In this paper, different kinds of residual stresses during the manufacture of microsystems and micro...
Microelectronic systems are multi-material, multi-layer structures, fabricated and exposed to enviro...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
This guide is applicable to X-ray stress measurements on crystalline materials. There is currently n...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
An overall trend toward smaller electronic packages and devices makes it increasingly important and ...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
A measuring and evaluation strategy for the determination of residual stress depth distributions sij...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
X-ray diffraction (XRD) is the most powerful tool for non destructive study of the fine structure of...
An important advantage of energy dispersive X-ray diffraction is the opportunity to obtain diffracti...
The detection of near surface residual stress gradients in real space requires high depth resolution...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
In order to predict the durability of engineering components and improve performance, it is mandator...
In this paper, different kinds of residual stresses during the manufacture of microsystems and micro...
In this paper, different kinds of residual stresses during the manufacture of microsystems and micro...
Microelectronic systems are multi-material, multi-layer structures, fabricated and exposed to enviro...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
This guide is applicable to X-ray stress measurements on crystalline materials. There is currently n...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
An overall trend toward smaller electronic packages and devices makes it increasingly important and ...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
A measuring and evaluation strategy for the determination of residual stress depth distributions sij...
The X-ray diffraction technique provides a non-destructive means of measuring residual stresses in p...
X-ray diffraction (XRD) is the most powerful tool for non destructive study of the fine structure of...
An important advantage of energy dispersive X-ray diffraction is the opportunity to obtain diffracti...
The detection of near surface residual stress gradients in real space requires high depth resolution...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
In order to predict the durability of engineering components and improve performance, it is mandator...