A statistical modelling method for simulating the fracture behaviour of acrylic glass is presented using the application case of an automotive rear side window. The collection of the necessary measurement data and their analysis is described. The aim is to give guidance to users of comparable materials. Finally, the model is integrated into the finite element simulation of a head impact test of the pane. Based on the resulting spread of the head injury criterion, the relevance of a statistical material characterisation for product safety is discussed.
A statistical modelling method for simulating the fracture behaviour of acrylic glass is presented using the application case of an automotive rear side window. The collection of the necessary measurement data and their analysis is described. The aim is to give guidance to users of comparable materials. Finally, the model is integrated into the finite element simulation of a head impact test of the pane. Based on the resulting spread of the head injury criterion, the relevance of a statistical material characterisation for product safety is discussed.
Produktdetails
Produktdetails
Mechanik, Werkstoffe und Konstruktion im Bauwesen 59
Marcel Berlinger studied mechanical engineering at Technische Hochschule Mittelhessen - University of Applied Sciences, and completed his Master's degree in 2017. Since then, he has been a research assistant and doctoral student in the Team of Prof. Dr.-Ing. habil. Stefan Kolling at the Institute of Mechanics and Materials at Technische Hochschule Mittelhessen.
Inhaltsangabe
Introduction.- Fundamentals.- Generalized Anderson-Darling Test.- Experimental Investigations.- Sampling.- Statistical Modeling.- Stochastic Simulation.- Experimental Basis for Model Enhancements.- Summary.
Introduction.- Fundamentals.- Generalized Anderson-Darling Test.- Experimental Investigations.- Sampling.- Statistical Modeling.- Stochastic Simulation.- Experimental Basis for Model Enhancements.- Summary.