Adjunct Associate Professor

Dr Ondrej Muransky

Mechanical and Manufacturing Engineering

I obtained my PhD degree at Charles University in Prague (Czech Republic), Faculty of Mathematics and Physics in the field of Physics of Condensed Matter and Material Research. I work at the Australian Nuclear Science and Technology Organisation (ANSTO) as a senior researcher and a numerical analyst, where I lead a research group focused on the High-Temperature and Molten-Salt Corrosion Performance of Advanced Materials for applications in the future low-emission energy-generation and energy-storage systems. In my work I use experimental and numerical techniques to obtain experimental (neutron, synchrotron) and numerical (finite element, crystal plasticity) data to understand in-service performance of materials. I have over ten years of post-PhD experience working on multi-disciplinary international research, industrial and defence related projects requiring experimental as well as numerical modelling expertise in the field of material research & engineering, manufacturing, solid mechanics, and advanced data analysis. I also hold an Adjunct Associate Professor position at the University of New South Wales (UNSW) where I supervise and train undergraduate and post-graduate students.

+ 61 2 9717 3488
Room 1049, Bld.3 ANSTO Lucas Heights New Illawara Road Sydney, NSW, Australia
  • Journal articles | 2020
    Huang Q; Shi R; Muránsky O; Beladi H; Kabra S; Schimpf C; Volkova O; Biermann H; Mola J, 2020, 'Neutron diffraction analysis of stress and strain partitioning in a two-phase microstructure with parallel-aligned phases', Scientific Reports, vol. 10,
    Journal articles | 2018
    Muránsky O; Tran M; Hamelin CJ; Shrestha SL; Bhattacharyya D, 2018, 'Assessment of welding-induced plasticity via electron backscatter diffraction', International Journal of Pressure Vessels and Piping, vol. 164, pp. 32 - 38,
    Journal articles | 2013
    Muránsky O; Daymond MR; Bhattacharyya D; Zanellato O; Vogel SC; Edwards L, 2013, 'Load partitioning and evidence of deformation twinning in dual-phase fine-grained Zr-2.5%Nb alloy', Materials Science and Engineering A, vol. 564, pp. 548 - 558,

DP210103103 - Reliability and design of 3D printed metal structures - Prof Kim Rasmussen, A/Prof Hao Zhang, Prof Anna Paradowska, Adj A/Prof Ondrej Muransky, Prof Leroy Gardner