Comparison Study of Internal Stress Measured by Diffraction Mapping and Calculation Using FEM

Jana Gamcová; Ondrej Milkovič; Dušan Németh; Gaurav Mohanty; Štefan Michalik; Juri Wehrs; Jozef Bednarčík; Christina Krywka; Jean-Marc Breguet; Johann Michler; Pavol Sovák; Hermann Franz

doi:10.4028/www.scientific.net/KEM.784.120

Paper Titles

Influence of Interfacial Transition Zone on Local and Overall Fracture Response of Cementitious Composites
p.97

Mechanical Properties of Build-Up Layers on Failed Ceramic Roller
p.103

Atomic Force Microscopy Measurements of the Area Function of a Sphero-Conical Tip
p.108

Oxide Ceramic Nano/Microfibers Prepared by Needle-Less Electrospinning - Materials for Fiber Reinforced Composites
p.114

Comparison Study of Internal Stress Measured by Diffraction Mapping and Calculation Using FEM
p.120

FEM of Cracking during Nanoindentation and Scratch Testing in the Hard W-C Coating/Steel Substrate System
p.127

Physical Characterization of Hafnium Oxide Thin Films Annealed in Vacuum
p.135

Mechanical Properties of HVOF Sprayed CrC-NiCr Coating Exposed to Hot Corrosion Environment
p.141

Degradation of HVOF Sprayed Hastelloy C-276 Local Mechanical Properties after Exposure to High Temperature Corrosion
p.147

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Comparison Study of Internal Stress Measured by Diffraction Mapping and Calculation Using FEM

Abstract:

The measuring of internal stress has not only a great scientific aspect, but is particularly important for nondestructive description of component or products in industry. It is expected that exceeding of local mechanical limits in the material can have catastrophic consequences. In this paper is mapped the deformation field of amorphous material under the nanoindenter tip using diffraction in Debye-Scherrer geometry. Using the FEM analysis, it was modeled the deformation field in such material. There is a great match in between measured and calculated data. The result is pointing out on large limits of internal stresses measuring by conventional standard methods.