Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle
Апстракт
This paper presents a simulation model of the absorption effects during a helmet collision with a hard obstacle. It is based on a necessity to predict the undesirable consequences that may occur in the case of a helmet colision and impact with a hard obstacle. The primary aim of the paper is to determine real deformations during the collision using a method of simulation of the energy absorption effects and to establish a successfull model of optimum helmet design, for engineering purposes, which corresponds to helmet behaviour in real conditions. Finite elements of the thin laminar shell type are used in helmet discretisation. Boundary conditions and loads are applied in such a way to simulate impact in the most realistic way. The helmet model is to be designed of multilayer laminar composite materials taking into account fiber orientation, possible impact directions and interlaminar normalized value of dynamic strength. Simulation has been done for different initial conditions, compo...sites of different characteristics and it has been applied to different models. Numerical analysis, tested static and dynamic models and results presented in this paper, according to the theoretical considerations, can successfully be applied with high accuracy in helmet design that will fulfill real life requirements.
Кључне речи:
simulation / helmet / finite element method / compositeИзвор:
Civil-Comp Proceedings, 2010, 93Издавач:
- Civil-Comp Press
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Mitrović, Časlav AU - Trišović, Nataša AU - Lazović, Tatjana AU - Marinković, Aleksandar PY - 2010 UR - https://machinery.mas.bg.ac.rs/handle/123456789/1030 AB - This paper presents a simulation model of the absorption effects during a helmet collision with a hard obstacle. It is based on a necessity to predict the undesirable consequences that may occur in the case of a helmet colision and impact with a hard obstacle. The primary aim of the paper is to determine real deformations during the collision using a method of simulation of the energy absorption effects and to establish a successfull model of optimum helmet design, for engineering purposes, which corresponds to helmet behaviour in real conditions. Finite elements of the thin laminar shell type are used in helmet discretisation. Boundary conditions and loads are applied in such a way to simulate impact in the most realistic way. The helmet model is to be designed of multilayer laminar composite materials taking into account fiber orientation, possible impact directions and interlaminar normalized value of dynamic strength. Simulation has been done for different initial conditions, composites of different characteristics and it has been applied to different models. Numerical analysis, tested static and dynamic models and results presented in this paper, according to the theoretical considerations, can successfully be applied with high accuracy in helmet design that will fulfill real life requirements. PB - Civil-Comp Press C3 - Civil-Comp Proceedings T1 - Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle VL - 93 UR - https://hdl.handle.net/21.15107/rcub_machinery_1030 ER -
@conference{ author = "Mitrović, Časlav and Trišović, Nataša and Lazović, Tatjana and Marinković, Aleksandar", year = "2010", abstract = "This paper presents a simulation model of the absorption effects during a helmet collision with a hard obstacle. It is based on a necessity to predict the undesirable consequences that may occur in the case of a helmet colision and impact with a hard obstacle. The primary aim of the paper is to determine real deformations during the collision using a method of simulation of the energy absorption effects and to establish a successfull model of optimum helmet design, for engineering purposes, which corresponds to helmet behaviour in real conditions. Finite elements of the thin laminar shell type are used in helmet discretisation. Boundary conditions and loads are applied in such a way to simulate impact in the most realistic way. The helmet model is to be designed of multilayer laminar composite materials taking into account fiber orientation, possible impact directions and interlaminar normalized value of dynamic strength. Simulation has been done for different initial conditions, composites of different characteristics and it has been applied to different models. Numerical analysis, tested static and dynamic models and results presented in this paper, according to the theoretical considerations, can successfully be applied with high accuracy in helmet design that will fulfill real life requirements.", publisher = "Civil-Comp Press", journal = "Civil-Comp Proceedings", title = "Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle", volume = "93", url = "https://hdl.handle.net/21.15107/rcub_machinery_1030" }
Mitrović, Č., Trišović, N., Lazović, T.,& Marinković, A.. (2010). Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle. in Civil-Comp Proceedings Civil-Comp Press., 93. https://hdl.handle.net/21.15107/rcub_machinery_1030
Mitrović Č, Trišović N, Lazović T, Marinković A. Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle. in Civil-Comp Proceedings. 2010;93. https://hdl.handle.net/21.15107/rcub_machinery_1030 .
Mitrović, Časlav, Trišović, Nataša, Lazović, Tatjana, Marinković, Aleksandar, "Simulation of Energy Absorption Effects during Helmet Collision with a Hard Obstacle" in Civil-Comp Proceedings, 93 (2010), https://hdl.handle.net/21.15107/rcub_machinery_1030 .