Microplasticity of idealized single crystalline Ag cantilevers characterized with methods of high resolution
Wobrock, Mark
Microplasticity of idealized single crystalline Ag cantilevers characterized with methods of high resolution - KIT Scientific Publishing 2017 - 1 electronic resource (XIII, 215 p. p.)
Open Access
Single crystalline, µm-sized cantilevers are fabricated out of epitaxially grown Ag thin films by a lithography-based procedure and are deflected by a nanoindenter system. The microstructure of the plastically deformed cantile-vers is investigated using transmission Kikuchi diffraction (TKD) on the cantilever cross section. 3D discrete dislocation dynamics simulations (DDD) are performed for further analysis. A mechanism to explain the formation of dislocation networks upon loading is suggested.
Creative Commons
English
KSP/1000070130 9783731506829
10.5445/KSP/1000070130 doi
Größeneffekt Size effect Micro plasticity Biegebalken Cantilever bending Mikroplastizität Nanoindenter Transmission Kikuchi Diffraction
Microplasticity of idealized single crystalline Ag cantilevers characterized with methods of high resolution - KIT Scientific Publishing 2017 - 1 electronic resource (XIII, 215 p. p.)
Open Access
Single crystalline, µm-sized cantilevers are fabricated out of epitaxially grown Ag thin films by a lithography-based procedure and are deflected by a nanoindenter system. The microstructure of the plastically deformed cantile-vers is investigated using transmission Kikuchi diffraction (TKD) on the cantilever cross section. 3D discrete dislocation dynamics simulations (DDD) are performed for further analysis. A mechanism to explain the formation of dislocation networks upon loading is suggested.
Creative Commons
English
KSP/1000070130 9783731506829
10.5445/KSP/1000070130 doi
Größeneffekt Size effect Micro plasticity Biegebalken Cantilever bending Mikroplastizität Nanoindenter Transmission Kikuchi Diffraction