Assessing Fatigue Life Cycles of Material X10CrMoVNb9-1 through a Combination of Experimental and Finite Element Analysis. Metals, (13)12:1947, MDPI, 2023. [PUMA: f2023 gold mult oa oafonds ubs_10004 ubs_10021 ubs_20004 ubs_20018 ubs_30047 ubs_30156 ubs_40073 ubs_40074 unibibliografie wos]
Physically-based modelling of the fatigue crack initiation life of stent components under cyclic loading employing the Finite-Element-Method (FEM). International journal of fatigue, (171)June:107594, Elsevier, 2023. [PUMA: mult ubs_10004 ubs_10021 ubs_20004 ubs_20018 ubs_30047 ubs_30156 ubs_40073 ubs_40074 unibibliografie wos]
Predicting the mechanical behavior of a polypropylene-based nonwoven using 3D microstructural simulation. The journal of the Textile Institute, (113)12:2609-2620, Taylor & Francis, 2022. [PUMA: mult ubs_10004 ubs_10021 ubs_20004 ubs_20018 ubs_30047 ubs_30156 ubs_40073 unibibliografie wos]
Experimental 3D characterization and parametrization of an anisotropic constitutive law for a synthetic nonwoven. The journal of the Textile Institute, (113)4:647-656, Taylor & Francis, 2022. [PUMA: mult ubs_10004 ubs_10021 ubs_20004 ubs_20018 ubs_30047 ubs_30156 ubs_40073 unibibliografie wos]