In order not only to meet the current targets in terms of safety, but also in terms of lightweight that means lower polluting gas emissions and fuel consumption, for a newly developed vehicle it is necessary to perform a number of component based tests. This kind of experimental tests is time consuming and very expensive. Therefore, it is recommended to develop cost effective design methodology and analysis using existing finite element methods in order to evaluate the performance of different design solutions under various loading, material and environmental conditions, since from the earliest stages of the design activity. This paper intends to address such design aspects and method of analysis with particular reference to the application of composite and recyclable thermoplastic materials to automotive front bumper design. Major constraints that have been dealt with are bumper crash resistance, absorbed energy and stiffness with particular reference to the existing bumper standards. Finally, the results predicted by the finite element analysis are evaluated and interpreted to insight the effectiveness of the proposed solution.

Implementation of Composite and Recyclable Thermoplastic Materials for Automotive Bumper Subsystem / Belingardi, Giovanni; Koricho, ERMIAS GEBREKIDAN; Martorana, B.. - In: INTERNATIONAL JOURNAL OF AUTOMOTIVE COMPOSITES. - ISSN 2051-8218. - STAMPA. - 1:1(2014), pp. 67-89.

Implementation of Composite and Recyclable Thermoplastic Materials for Automotive Bumper Subsystem

BELINGARDI, Giovanni;KORICHO, ERMIAS GEBREKIDAN;
2014

Abstract

In order not only to meet the current targets in terms of safety, but also in terms of lightweight that means lower polluting gas emissions and fuel consumption, for a newly developed vehicle it is necessary to perform a number of component based tests. This kind of experimental tests is time consuming and very expensive. Therefore, it is recommended to develop cost effective design methodology and analysis using existing finite element methods in order to evaluate the performance of different design solutions under various loading, material and environmental conditions, since from the earliest stages of the design activity. This paper intends to address such design aspects and method of analysis with particular reference to the application of composite and recyclable thermoplastic materials to automotive front bumper design. Major constraints that have been dealt with are bumper crash resistance, absorbed energy and stiffness with particular reference to the existing bumper standards. Finally, the results predicted by the finite element analysis are evaluated and interpreted to insight the effectiveness of the proposed solution.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2561796
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