Pedestrian Safety in Frontal Tram Collision, Part 2: Laminated Glass as a Crucial Part of the Absorption and Deformation Zone—Its Impact Test and Analysis
Roman Jezdik,
Marek Sebik,
Petr Kubovy,
Frantisek Marsik,
Frantisek Lopot,
Barbora Hajkova,
Dita Hylmarova,
Martin Havlicek,
Ondrej Stocek,
Martin Doubek,
Tommi Tikkanen,
Martin Svoboda,
Karel Jelen
Affiliations
Roman Jezdik
VUKV a.s., 158 00 Prague, Czech Republic
Marek Sebik
SVS FEM s.r.o., 628 00 Brno, Czech Republic
Petr Kubovy
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
Frantisek Marsik
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
Frantisek Lopot
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
Barbora Hajkova
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
Dita Hylmarova
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
Martin Havlicek
Department of Designing and Machine Elements, Czech Technical University, 160 00 Prague, Czech Republic
Ondrej Stocek
Department of Designing and Machine Elements, Czech Technical University, 160 00 Prague, Czech Republic
Martin Doubek
Dopravní Podnik Hlavního Města Prahy, 190 22 Prague, Czech Republic
Tommi Tikkanen
GIM Oy, 02650 Espoo, Finland
Martin Svoboda
Faculty of Mechanical Engineering, Jan Evangelista Purkyne University, 400 96 Usti nad Labem, Czech Republic
Karel Jelen
Department of Anatomy and Biomechanics, Charles University, 162 52 Prague, Czech Republic
As was shown in the previous part of the study, windshields are an important part of the passive safety means of modern low-floor trams with an extraordinary effect on pedestrian safety in a pedestrian–tram collisions. Therefore, maximum attention must be paid to the definition of tram windshield characteristics. This article describes a windshield crash test, from which data are obtained to verify the feasibility of the applied computational approaches. A developed analytical model is utilised for a simple description of the energy balance during collision with an illustrative definition of the important parameters of laminated glass as well as their clear physical interpretations. The finite element analysis (FEA) performed in Ansys software using two versions of material definition, namely a simpler (*MAT_ELASTIC with nonlocal failure criterion) and a more complex (*MAT_GLASS with brittle stress-state-dependent failure) material model, which are presented as suitable for obtaining a detailed description of the shattering process of laminated glass, which can also be used effectively in windshield engineering.