Search Results - "GLODEŽ, S."

Assessing the cracking behavior of auxetic cellular structures by using both a numerical and an experimental approach by Kramberger, J., Nečemer, B., Glodež, S.

“…•Fracture behavior of auxetic cellular structures is investigated.•A ductile damage computational modeling technique is presented.•Identification of ductile…”
Get full text

Failure analysis of forging die insert protected with diffusion layer and PVD coating by Podgrajšek, M., Glodež, S., Ren, Z.

“…The forging die used in a hot forming operation on a hydraulic drop hammer is often exposed to high thermal and mechanical loadings where the service life of…”
Get full text

Numerical modelling of a chiral auxetic cellular structure under multiaxial loading conditions by Nečemer, B., Glodež, S., Novak, N., Kramberger, J.

“…•Mechanical behaviour of a chiral auxetic cellular structure under multiaxial loading is investigated.•Damage and failure computational modelling techniques…”
Get full text

Analytical approach for low and high cycle bending fatigue life prediction of carburized gear steel specimens by Čular, I., Vučković, K., Žeželj, D., Glodež, S.

“…•Analytical model was proposed for bending fatigue life prediction of carburized gear steel specimens.•Strain-life, rule of mixture, hardness and multilayer…”
Get full text

Low-cycle fatigue analysis of closed-cell aluminium foam using a homogenised material model by Ulbin, M., Kramberger, J., Glodež, S.

“…•The fatigue behaviour of AlSi7 closed-cell aluminium foam is presented.•Computational fatigue analysis of high porous structures is very difficult to process…”
Get full text

Finite element analysis of the mechanical performance of a two-layer polymer composite stent structure by Donik, Ž., Nečemer, B., Glodež, S., Kramberger, J.

“…•A bioresorbable polymer layered composite stent is modelled and examined.•Stent crimping and expansion inside the atherosclerotic artery is simulated.•Finite…”
Get full text

Computational study of low-cycle fatigue behaviour of lotus-type porous material by Kramberger, J., Šraml, M., Glodež, S.

“…•Low-cycle fatigue behaviour of lotus-type porous material is investigated.•Damage computational modelling technique based on the inelastic energy is…”
Get full text

Fatigue and fracture behaviour of Friction Stir Welded AA-2024-T351 joints by Vuherer, T., Milčić, M., Glodež, S., Milčić, D., Radović, L., Kramberger, J.

“…•Fatigue and fracture behaviour of FSW AA2024-T351-joints was investigated experimentally.•The fatigue and fracture behaviour regarding typical welding…”
Get full text

Fatigue and fracture parameters of diffusion alloyed Cu–Ni–Mo sintered steel by Šori, M., Vuherer, T., Glodež, S.

“…•Overview of diffusion alloyed Cu–Ni–Mo sintered steel mechanical properties is given.•The hardening effects on sintered steel are shown on many material…”
Get full text

Low cycle fatigue behaviour of closed-cell aluminium foam by Ulbin, M., Glodež, S., Vesenjak, M., Duarte, I., Podgornik, B., Ren, Z., Kramberger, J.

“…The computational and experimental investigation of the fatigue behaviour of AlSi7 aluminium foam is presented in this study. The internal structure of a…”
Get full text

Multiaxial low-cycle fatigue modelling of lotus-type porous structures by Kramberger, J., Šori, M., Šraml, M., Glodež, S.

“…•Multiaxial low-cycle fatigue behaviour of lotus-type porous material is investigated.•Damage computational modelling technique based on the inelastic energy…”
Get full text

The influence of thermal treatment on the low-cycle fatigue behaviour of Cu-Ni-Mo sintered steel by Glodež, S., Vučković, K., Šori, M., Surjak, M., Zupanič, F.

“…•Low-cycle fatigue behaviour of Cu-Ni-Mo PM steel for initial (as-sintered) and additional hardened (as-hardened) conditions.•Additional hardening increases…”
Get full text

Computational model for determination of dynamic load capacity of large three-row roller slewing bearings by Göncz, P., Drobne, M., Glodež, S.

“…•Calculation model for dynamic load capacity of a large roller slewing bearing.•3D FEM-model is used for calculation of internal contact force…”
Get full text

Pitting formation due to surface and subsurface initiated fatigue crack growth in contacting mechanical elements by Fajdiga, G., Glodež, S., Kramar, J.

“…A computational model for simulation of surface and subsurface initiated fatigue crack growth due to contact loading is presented. The model is based on…”
Get full text

A statistical evaluation of micro-crack initiation in thermally cut structural elements by Glodež, S., Šori, M., Kramberger, J.

“…ABSTRACT The paper presents a numerical modelling of fatigue crack initiation in thermally cut structural elements by using improved Tanaka–Mura crack…”
Get full text

Damage and failure modeling of lotus-type porous material subjected to low-cycle fatigue by Kramberger, J., Sterkuš, K., Glodež, S.

“…The investigation of low-cycle fatigue behaviour of lotus-type porous material is presented in this paper. Porous materials exhibit some unique features which…”
Get full text

Extension of the Tanaka–Mura model for fatigue crack initiation in thermally cut martensitic steels by Kramberger, J., Jezernik, N., Göncz, P., Glodež, S.

“…A multi scale numerical approach for evaluation of crack initiation and propagation in thermally cut structural elements made of martensitic steel is…”
Get full text

Fatigue crack initiation and propagation in lotus-type porous material by Glodež, S., Dervaric, S., Kramberger, J., Šraml, M.

“…The investigation of fatigue strength of lotus-type structure with nodular cast iron as a base material using computational model is analysed in present study…”
Get full text

Computational simulation of biaxial fatigue behaviour of lotus-type porous material by Kramberger, J, Sori, M, Sraml, M, Glodez, S

“…A computational simulation of low-cycle fatigue behaviour of lotus-type porous material, subjected to biaxial in-phase loading cycles is presented in this…”
Get full text

Fatigue crack growth and fracture mechanics analysis of a working roll surface layer material by M. Drobne, T. Vuherer, I. Samardžić, S Glodež

“…Fatigue crack growth and fracture mechanics analysis of a working roll surface layer material is presented in this paper. The research is done on a hot strip…”
Get full text