Derivation of optimal design of cockpit module considering vibration and heat-resistance characteristics
Hyunjun Kim/Hoon Cho/ Youngtak Son/ Hyekyung Kim/Haeryong Kim/Myungwon Suh
The Journal of Mechanical Science and Technology, vol. 24, no. 6, pp.1219-1224, 2010
Abstract : Elimination of noise caused by the permanent deformation of interior plastic parts has been one of the major factors driving the design
of automotive interior assemblies. Noise, indeed, is one of the main criteria affecting the perception of vehicle quality. Traditionally,
noise issues have been identified and rectified through extensive hardware testing. However, to shorten the product development cycle
and minimize the amount of costly hardware manufactured, hardware testing must rely on engineering analysis and upfront simulation in
the design cycle. In this paper, an analytical study conducted to reduce permanent deformation in a cockpit module is discussed. The
analytical investigation utilized a novel and practical methodology, implemented through the software tools ABAQUS and iSight, for the
identification and minimization of permanent deformation. Here, the emphasis was placed on evaluating the software for issues relating
to the prediction of permanent deformation. The analytical results were compared with the experimental findings for two types of
deformation location, and the qualitative correlation was found to be very good. We also developed a methodology for the
determination of the optimal guide and mount locations of the cockpit module that minimizes permanent deformation. To this end, the
methodology implements and integrates nonlinear finite element analysis with sensitivity-analysis techniques.
Keyword : Key-life test; Cockpit module; Optimal design; Permanent deformation; Differential sound; Sensitivity analysis; Regression function |