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On the Time and Temperature Dependent Behaviour of Laminated Amorphous Polymers Subjected to Low-Velocity Impact de Andreas Rühl

On the Time and Temperature Dependent Behaviour of Laminated Amorphous Polymers Subjected to Low-Velocity Impact: Mechanik, Werkstoffe und Konstruktion im Bauwesen, cartea 47

Autor Andreas Rühl
en Limba Engleză Paperback – 8 mai 2017
The thesis investigates a polymeric laminate consisting of poly(methyl methacrylate) (PMMA) and thermoplastic polyurethane (TPU) experimentally and numerically with regard to its impact behaviour and applicability. After a basic characterization of the monolithic materials, PMMA-TPU-PMMA laminates were subjected to impact loadings at velocities up to 5 m/s using threepoint bending and dart impact tests. Based on the experimental basis, different material models for the Finite Element simulation are presented, which are able to capture the time and temperature dependent behaviour of the laminate. Final validation experiments, consisting of head-dummy impacts at 10 m/s on automotive side windows, were conducted for PMMA and the laminate in order to investigate their applicability as glass substitution products.
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Specificații

ISBN-13: 9783662546406
ISBN-10: 366254640X
Pagini: 167
Ilustrații: XVII, 167 p. 103 illus.
Dimensiuni: 168 x 240 x 10 mm
Greutate: 0.31 kg
Ediția:1st ed. 2017
Editura: Springer Berlin, Heidelberg
Colecția Springer Vieweg
Seria Mechanik, Werkstoffe und Konstruktion im Bauwesen

Locul publicării:Berlin, Heidelberg, Germany

Cuprins

Introduction.- Fundamentals.- Experimental Investigation.- Material Modelling of PMMA.- Material Modelling of TPU.- Simulation of PMMA-TPU Laminate.- Component Tests and Validation.- Summary and Outlook.

Notă biografică

​Dr.-Ing. Andreas Rühl studied Mechanical Engineering at the Technische Hochschule Mittelhessen in Gießen. Since 2011 he is employed at the Institute of Mechanics and Materials as a research associate in the working group of Prof. Dr.-Ing. habil. Stefan Kolling. During this time he completed his doctorate (Dr.-Ing.) in a cooperative graduation with the Technical University Darmstadt in the working group of Prof. Dr.-Ing. Jens Schneider. His research interests are in the area of thermomechanical characterization and modelling of polymeric materials. 

Textul de pe ultima copertă

The thesis investigates a polymeric laminate consisting of poly(methyl methacrylate) (PMMA) and thermoplastic polyurethane (TPU) experimentally and numerically with regard to its impact behaviour and applicability. After a basic characterization of the monolithic materials, PMMA-TPU-PMMA laminates were subjected to impact loadings at velocities up to 5 m/s using threepoint bending and dart impact tests. Based on the experimental basis, different material models for the Finite Element simulation are presented, which are able to capture the time and temperature dependent behaviour of the laminate. Final validation experiments, consisting of head-dummy impacts at 10 m/s on automotive side windows, were conducted for PMMA and the laminate in order to investigate their applicability as glass substitution products.
The Content
Introduction · Fundamentals · Experimental Investigation · Material Modelling of PMMA · Material Modelling of TPU · Simulation of PMMA-TPU Laminate · Component Tests and Validation · Summary and Outlook

The Author
​Dr.-Ing. Andreas Rühl studied Mechanical Engineering at the Technische Hochschule Mittelhessen in Gießen. Since 2011 he is employed at the Institute of Mechanics and Materials as a research associate in the working group of Prof. Dr.-Ing. habil. Stefan Kolling. During this time he completed his doctorate (Dr.-Ing.) in a cooperative graduation with the Technical University Darmstadt in the working group of Prof. Dr.-Ing. Jens Schneider. His research interests are in the area of thermomechanical characterization and modelling of polymeric materials. 

Caracteristici

Presents new Research results of a transparent polymeric laminate Covers many approaches for the modelling of typical polymeric materials for industrial applications Outlines a unique investigation of interlayer heating within a laminate