Design simulation of nonlinear static 2D and steady state thermal for sustainability downlight casing base

Abstract

This paper explains the design and simulation of nonlinear static 2D and steady state thermal for sustainability downlight casing base. The main problem in designing of downlight casing base is to ensure the heat transferred to the surrounding while maintaining the quality of light. This study simulates of 6-in casing base downlight and Polycarbonate/acrylonitrile butadiene styrene (PC-ABS) based material. New product design methodology was presented using SolidWorks simulation to represent the phenomena of heat transfer in the downlight casing base at the design stage. The result shows the nonlinear static 2D for main base was achieved. The parameters of materials, dimension, and thickness was contributed in the seamless of heat transferred form casing base to the surrounding at ambient temperature. This practice prevents the quality of light while heat flux as applied to be further study. In addition, the steady state thermal simulation shows significant heat flux and convection changes to every face of casing base parts. Thus, this study is proposed to manage the development of new design relates with nonlinear static 2D and steady state thermal analysis for sustainability downlight casing base.