Bakgrunn og aktiviteter
Tore Børvik earned his Ph.D. at Norwegian University of Science and Technology (NTNU) in 2001 within applied mechanics. He is currently a professor at Department of Structural Engineering, NTNU and a senior advisor for the Norwegian Defence Estates Agency. He was the programme head of the research programme Optimal Energy Absorption and Protection at CRI-SIMLab at NTNU from 2007 – 2014, and he is the co-director and a programme head of the research programme Protective Structures in CRI-CASA at NTNU from 2015 – 2023. He is the author of more than 120 articles in peer reviewed journals, and a corresponding number of papers at various international conferences. His research activities are mainly related to impact and penetration, but in later years his research has also been focused on blast-loaded structures and impact against off-shore installations. At present he also serves as an Associate Editor in the International Journal of Impact Engineering.
Vitenskapelig, faglig og kunstnerisk arbeid
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- (2017) On the dynamic response of blast-loaded steel plates with and without pre-formed holes. International Journal of Impact Engineering. vol. 108.
- (2017) Numerical study on the structural response of blast-loaded thin aluminium and steel plates. International Journal of Impact Engineering. vol. 99.
- (2017) Use of damage-based mesh adaptivity to predict ductile failure in blast-loaded aluminium plates. Procedia Engineering. vol. 197.
- (2017) Unit cell simulations and porous plasticity modelling for strongly anisotropic FCC metals. European journal of mechanics. A, Solids. vol. 65.
- (2017) Influence of yield surface curvature on the macroscopic yielding and ductile failure of isotropic porous plastic materials. Journal of the mechanics and physics of solids. vol. 107.
- (2017) Influence of pre-compression on the ductility of AA6xxx aluminium alloys. International Journal of Fracture. vol. 206 (2).
- (2017) Experiments and simulations of empty and sand-filled aluminum alloy panels subjected to ballistic impact. Engineering structures. vol. 130.
- (2017) Strength differential effect in age hardened aluminum alloys. International journal of plasticity. vol. 99.
- (2017) Influence of yield-surface shape in simulation of ballistic impact. International Journal of Impact Engineering. vol. 108.
- (2017) Discrete modeling of low-velocity penetration in sand. Computers and geotechnics. vol. 86.
- (2017) Ballistic impact of layered and case-hardened steel plates. International Journal of Impact Engineering. vol. 110.
- (2017) Effects of heat-treatment on the plastic anisotropy of extruded aluminium alloy AA6063. Materials Science & Engineering: A. vol. 708.
- (2016) Experimental study on the response of thin aluminium and steel plates subjected to airblast loading. International Journal of Impact Engineering. vol. 90.
- (2016) A shock tube facility to generate blast loading on structures. International Journal of Protective Structures. vol. 7 (3).
- (2016) Influence of sigma-phase precipitation on the impact behaviour of duplex stainless steel pipe fittings. Ships and Offshore Structures. vol. 11 (1).
- (2016) Influence of loading path on ductile fracture of tensile specimens made from aluminium alloys. International Journal of Solids and Structures. vol. 88-89.
- (2016) Unit cell simulations and porous plasticity modelling for recrystallization textures in aluminium alloys. Procedia Structural Engineering. vol. 2.
- (2016) Prediction of ductile failure using a phenomenological model calibrated from micromechanical simulations. Procedia Structural Engineering. vol. 2.
- (2016) Influence of fragmentation on the capacity of aluminum alloy plates subjected to ballistic impact. European journal of mechanics. A, Solids. vol. 55.
- (2016) Using unit cell simulations to investigate fracture due to compression-tension loading. Engineering Fracture Mechanics. vol. 162.