Univ.-Prof. Dr. Jozef Keckes
Function: Vice Chair Material Physics / Group Leader
Room: 303
Phone: +43 (0) 3842-804-303
E-Mail: jozef.keckes(at)unileoben.ac.at
Research
Micro- and Nanostructure Characterization and Micro- and Nanomechanics
Methods
In-situ X-ray scattering on micro- and nano-scaled materials, structure and mechanical properties of thin films, structure-property relationship in biological materials, application of synchrotron radiation, XRD, SAXS, WAXS, GISAXS
Teaching
Materialkundliche Arbeitsverfahren/Metallkundliche Arbeitsverfahren, Seminar aus Werkstoffphysik I and II, Übungen zu Materialkundliche Arbeitsverfahren
Projects
Publications
- The structure and mechanical properties of spines from the cactus opuntia ficus-indicaBioResources, 1232-1237 (2012)RIS ENW BIB
- A two-dimensional waveguide beam for X-ray nanodiffractionJournal of Applied Crystallography, 85-92 (2012)RIS ENW BIB
- Expected and unexpected plastic behavior at the micron scale: An in situ µLaue tensile studyActa Materialia, 1252-1258 (2012)RIS ENW BIB
- Ab initio molecular dynamics model for density, elastic properties and short range order of Co–Fe–Ta–B metallic glass thin filmsJournal of Physics: Condensed Matter, 475401-475408 (2011)RIS ENW BIB
- In Situ High Temperature X-Ray Diffraction Reveals Residual Stress Depth-Profiles in Blasted TiN Hard CoatingsAdvanced Engineering Materials, 705-711 (2011)RIS ENW BIB
- Size effect of thermal expansion and thermal/intrinsic stresses in nanostructured thin films: Experiment and modelActa Materialia, 6631-6645 (2011)RIS ENW BIB
- In Situ µLaue: Instrumental Setup for the Deformation of Micron Sized SamplesAdvanced Engineering Materials, 837-844 (2011)RIS ENW BIB
- Decomposition pathways in age hardening of Ti-Al-N filmsJournal of Applied Physics, 023515-1-023515-10 (2011)RIS ENW BIB
- Cellulose nanofibrils as filler for adhesives: effect on specific fracture energy of solid wood-adhesive bondsCellulose, 1227-1237 (2011)RIS ENW BIB
- Impact of instrumental constraints and imperfections on the dislocation structure in micron-sized Cu compression pillarsActa Materialia, 5618-5626 (2011)RIS ENW BIB