Amirkabir University of Technology Advances in Energy Sciences and Technologies 3115-9117 1 2 2025 09 01 Investigation of the effects of transient heat loads on plasma-facing materials in Tokamaks 172 185 5780 10.22060/aest.2025.5780 EN Ali Masoudi Department of Physics and Energy Engineering, Amirkabir University of Technology, Hafez Ave, Valiasr Square, Tehran, 1591634311, Iran Davoud Iraji Department of Physics and Energy Engineering, Amirkabir University of Technology, Hafez Ave, Valiasr Square, Tehran, 1591634311, Iran 0000-0003-2933-4904 Chapar Rasouli Plasma Physics and Nuclear Fusion Research School, Nuclear Science and Technology Research Institute, North Kargar Ave, Tehran, 14155-1339, Iran Journal Article 2025 05 02 Nuclear fusion devices are constantly under the threat of malfunctions coming from the damages of plasma-facing materials due to being affected by thermal heat loads. The frequent heat loads during some transient events in large-scale Tokamaks have always been a great concern for researchers. In ITER, the heat load of <em>GW/m²</em> is estimated to impose plasma-facing components during edge localized modes, beside the Tokamak steady state load which is about 20 <em>MW/m²</em>. Moreover, there are also other transient thermal loads occurring due to off-normal operation of ITER such as vertical displacement events or disruptions, at the orders of hundreds of <em>MW/m²</em> and tens of <em>GW/m²</em>, respectively. These loads are great enough to result in severe damages of plasma-facing materials. In this study, the facture of tungsten material under the heat loads of Tokamaks is simulated and the results are presented. https://aest.aut.ac.ir/article_5780_294a8ed24b1ad22ec2e7efea049b8737.pdf