- PHASE TRANSFORMATIONS IN METASTABLE Ti-15Mo DURING LINEAR HEATING2016 | Faculty of Mathematics and Physics
- Ultra-fine grained Ti-15Mo alloy prepared by powder metallurgy2018 | Faculty of Mathematics and Physics
- Thermal expansion evolution of metastable β Ti-15Mo alloy during linear heating2019 | Faculty of Mathematics and Physics
- Ti-15Mo alloy prepared by cryogenic milling and spark plasma sintering2020 | Faculty of Mathematics and Physics
- Effect of high pressure torsion on the aging kinetics of β-titanium Ti-15Mo alloy2014 | Faculty of Mathematics and Physics
- Mechanical properties of Ti-15Mo alloy prepared by cryogenic milling and spark plasma sintering2019 | Faculty of Mathematics and Physics
- Evolution of Microstructure and Microhardness in Ti-15Mo beta-Ti Alloy Prepared by High Pressure Torsion2016 | Faculty of Mathematics and Physics
- Microstructure and mechanical properties of Ti-15Mo alloy prepared by ECAP2018 | Faculty of Mathematics and Physics
- The effect of spark plasma sintering on the porosity and mechanical properties of Ti-15Mo alloy2018 | Faculty of Mathematics and Physics
- Elastic constants of Ti-15Mo single crystals and their evolution with thermal treatment2020 | Faculty of Mathematics and Physics
- Thermal expansion evolution of metastable beta Ti-15Mo alloy during linear heating2018 | Faculty of Mathematics and Physics
- Characterization of phase transitions occuring in solution treated Ti-15Mo during heating by thermal expansion and electrical resistance measurements2017 | Faculty of Mathematics and Physics
- Processing of Long Ti-15Mo Alloy Rods by Upscaling the Field-Assisted Sintering Technique2023 | Faculty of Mathematics and Physics
- In situ detection of stability limit of omega phase in Ti-15Mo alloy during heating2019 | Faculty of Mathematics and Physics
- Phase Transformations in Ti-15Mo Investigated by in situ Electrical Resistance2015 | Faculty of Mathematics and Physics
- Evolution of omega phase during heating of metastable beta titanium alloy Ti-15Mo2018 | Faculty of Mathematics and Physics
- Ultra-fine grained microstructure of metastable beta Ti-15Mo alloy and its effects on the phase transformations2017 | Faculty of Mathematics and Physics
- Preparation of bulk Ti-15Mo alloy using cryogenic milling and spark plasma sintering2021 | Faculty of Mathematics and Physics
- Effect of the severe plastic deformation by ECAP on microstructure and phase transformations in Ti-15Mo alloy2020 | Faculty of Mathematics and Physics
- ANOMALOUS X-RAY DIFFRACTION FROM omega PARTICLES IN Ti-15Mo ALLOY2018 | Faculty of Mathematics and Physics
- Transformation Pathway upon Heating of Metastable beta Titanium Alloy Ti-15Mo Investigated by Neutron Diffraction2019 | Faculty of Mathematics and Physics
- Microhardness and microstructure evolution of ultra-fine grained Ti-15Mo and TIMETAL LCB alloys prepared by high pressure torsion2017 | Faculty of Mathematics and Physics
- The effect of cryogenic milling and parameters of spark plasma sintering on microstructure, phase composition and mechanical properties of metastable beta titanium alloy Ti-15Mo2020 | Faculty of Mathematics and Physics
- INVESTIGATION OF MICROHARDNESS AND MICROSTRUCTURE IN ULTRA-FINE GRAINED METASTABLE BETA-Ti ALLOYS PREPARED BY HIGH PRESSURE TORSION2016 | Faculty of Mathematics and Physics
- Microstructure of beta solution treated biomedical Ti15Mo alloy prepared by HPT and ECAP2019 | Faculty of Mathematics and Physics
- Microstructural Changes in beta-Ti Alloy Investigated by Electrical Resistance2015 | Faculty of Mathematics and Physics
- Microstructure evolution in compositionally graded Ti(4-12 wt% Mo) prepared by laser directed energy deposition2023 | Faculty of Mathematics and Physics
- Influence of the thermal history on the phase composition of laser directed energy deposited Ti-8.5 wt% Mo alloy2022 | Faculty of Mathematics and Physics
- Ultrafine-grained metastable Ti15Mo alloy prepared by the powder metallurgy technique of spark plasma sintering2019 | Faculty of Mathematics and Physics
- Anomalous X-ray diffraction from omega nanoparticles in beta-Ti(Mo) single crystals2019 | Faculty of Mathematics and Physics