Jovičević-Klug, P.; Jovičević-Klug, M.; Thormählen, L.; McCord, J.; Rohwerder, M.; Godec, M.; Podgornik, B.: Austenite reversion suppression with deep cryogenic treatment: A novel pathway towards 3rd generation advanced high-strength steels. Materials Science and Engineering A: Structural Materials Properties Microstructure and Processing 873, 145033 (2023)
Jovičević-Klug, P.; Tegg, L.; Jovičević-Klug, M.; Parmar, R.; Amati, M.; Gregoratti, L.; Almásy, L.; Cairney, J. M.; Podgornik, B.: Understanding carbide evolution and surface chemistry during deep cryogenic treatment in high-alloyed ferrous alloy. Applied Surface Science 610, 155497 (2023)
Amati, M.; Susi, T.; Jovičević-Klug, P.; Jovičević-Klug, M.; Kosmala, T.; Granozzi, G.; Agnoli, S.; Yang, P.; Zhang, Y.; Scardamaglia, M.et al.; Gregoratti, L.: Scanning photoelectron spectromicroscopy: from static to operando studies of functional materials. Journal of Electron Spectroscopy and Related Phenomena 265, 147336 (2023)
Jovičević-Klug, M.; Tegg, L.; Jovičević-Klug, P.; Dražić, G.; Almásy, L.; Lim, B.; Cairney, J. M.; Podgornik, B.: Multiscale modification of aluminum alloys with deep cryogenic treatment for advanced properties. Journal of Materials Research and Technology 21, pp. 3062 - 3073 (2022)
Jovičević-Klug, P.; Jovičević-Klug, M.; Tegg, L.; Seidler, D.; Thormählen, L.; Parmar, R.; Amati, M.; Gregoratti, L.; Cairney, J.; McCord, J.et al.; Rohwerder, M.; Podgornik, B.: Correlative surface and bulk analysis of deep cryogenic treatment influence on high-alloyed ferrous alloy. Journal of Materials Research and Technology 21, pp. 4799 - 4810 (2022)
Jovičević-Klug, P.; Lipovšek, N.; Jovičević-Klug, M.; Mrak, M.; Ekar, J.; Ambrožič, B.; Dražić, G.; Kovač, J.; Podgornik, B.: Assessment of deep cryogenic heat-treatment impact on the microstructure and surface chemistry of austenitic stainless steel. Surfaces and Interfaces 35, 102456 (2022)
Jovičević-Klug, P.; Sedlaček, M.; Jovičević-Klug, M.; Podgornik, B.: Effect of Deep Cryogenic Treatment on Wear and Galling Properties of High-Speed Steels (Correction: vol 14, 7561, 2021). Materials 15 (20), 7218 (2022)
Jovičević-Klug, P.; Jovičević-Klug, M.; Tóth, L.: Mechanical, Corrosive, and Tribological Degradation of Metal Coatings and Modified Metallic Surfaces. Coatings 12 (7), 886 (2022)
Jovičević-Klug, P.; Guštin, A. Z.; Jovičević-Klug, M.; Šetina Batič, B.; Lebar, A.; Podgornik, B.: Coupled role of alloying and manufacturing on deep cryogenic treatment performance on high-alloyed ferrous alloys. Journal of Materials Research and Technology 18, pp. 3184 - 3197 (2022)
Jovičević-Klug, M.; Rezar, R.; Jovičević-Klug, P.; Podgornik, B.: Influence of deep cryogenic treatment on natural and artificial aging of Al–Mg–Si alloy EN AW 6026. Journal of Alloys and Compounds 899, 163323 (2022)
Jovičević-Klug, P.; Jovičević-Klug, M.; Podgornik, B.: Unravelling the Role of Nitrogen in Surface Chemistry and Oxidation Evolution of Deep Cryogenic Treated High-Alloyed Ferrous Alloy. Coatings 12 (2), 213 (2022)
Jovičević-Klug, P.; Kranjec, T.; Jovičević-Klug, M.; Kosec, T.; Podgornik, B.: Influence of the Deep Cryogenic Treatment on AISI 52100 and AISI D3 Steel’s Corrosion Resistance. Materials 14 (21), 6357 (2021)
Scientists of the Max-Planck-Institut für Eisenforschung pioneer new machine learning model for corrosion-resistant alloy design. Their results are now published in the journal Science Advances
The utilization of Kelvin Probe (KP) techniques for spatially resolved high sensitivity measurement of hydrogen has been a major break-through for our work on hydrogen in materials. A relatively straight forward approach was hydrogen mapping for supporting research on hydrogen embrittlement that was successfully applied on different materials, and…
This project will aim at developing MEMS based nanoforce sensors with capacitive sensing capabilities. The nanoforce sensors will be further incorporated with in situ SEM and TEM small scale testing systems, for allowing simultaneous visualization of the deformation process during mechanical tests
Photovoltaic materials have seen rapid development in the past decades, propelling the global transition towards a sustainable and CO2-free economy. Storing the day-time energy for night-time usage has become a major challenge to integrate sizeable solar farms into the electrical grid. Developing technologies to convert solar energy directly into…
It is very challenging to simulate electron-transfer reactions under potential control within high-level electronic structure theory, e. g. to study electrochemical and electrocatalytic reaction mechanisms. We develop a novel method to sample the canonical NVTΦ or NpTΦ ensemble at constant electrode potential in ab initio molecular dynamics…
The field of micromechanics has seen a large progress in the past two decades, enabled by the development of instrumented nanoindentation. Consequently, diverse methodologies have been tested to extract fundamental properties of materials related to their plastic and elastic behaviour and fracture toughness. Established experimental protocols are…
Statistical significance in materials science is a challenge that has been trying to overcome by miniaturization. However, this process is still limited to 4-5 tests per parameter variance, i.e. Size, orientation, grain size, composition, etc. as the process of fabricating pillars and testing has to be done one by one. With this project, we aim to…
Crystal Plasticity (CP) modeling [1] is a powerful and well established computational materials science tool to investigate mechanical structure–property relations in crystalline materials. It has been successfully applied to study diverse micromechanical phenomena ranging from strain hardening in single crystals to texture evolution in…