Mohd Azaman Md Deros, Dr.
About Dr. Mohd Azaman Bin Md Deros
Dr. Mohd Azaman Bin Md Deros is currently a Senior Lecturer at Faculty of Mechanical Engineering Technology, Universiti Malaysia Perlis
He was formerly from Centre of Excellence for Geopolymer and Green Technology
ORCID ID: https://orcid.org/
Scopus Author ID: 57205730917
Email: Mohd Azaman Md Deros
Skills and expertise: Mechanical & Manufacturing and Analytical Deformation (Shrinkages And Warpage Behaviors)
Optimization and numerical simulation analysis for molded thin-walled parts fabricated using wood-filled polypropylene composites via plastic injection molding (Society of Plastics Engineers, 2014-07)Plastic injection molding is discontinuous and a complicated process involving the interaction of several variables for control the quality of the molded parts. The goal of this research was to investigate the optimal ...
Optimization of blending parameters and fiber size of kenaf-bast-fiber- reinforced the thermoplastic polyurethane composites by Taguchi method (Hindawi Publishing Corporation, 2013)“Kenaf-fibers- (KF-)” reinforced “thermoplastic polyurethane (TPU)” composites were prepared by the melt-blending method followed by compression molding. Composite specimens were cut from the sheets that were prepared by ...
Numerical simulation analysis of unfilled and filled reinforced polypropylene on thin-walled parts formed using the injection-moulding process (Hindawi Publishing Corporation, 2015)Thin-walled moulding technology has attracted increasing attention, particularly in electronic packing applications. The injection moulding of shallow, thin-walled parts with a thickness of 0.7 mm was performed using three ...
(Trans Tech Publications Ltd, 2014-06)The current trend in the industry is to produce thin, light weight, and environmental products. In this project, flat or shallow thin-walled parts were designed and moulded lignocellulosic polymer composites (PP + 50 wt% ...
Numerical simulation analysis of the in-cavity residual stress distribution of lignocellulosic (wood) polymer composites used in shallow thin-walled parts (Elsevier, 2014-03)In this paper, a numerical analysis of in-cavity residual stress formation in the thin-walled parts of injection-moulded parts is presented by considering the residual stresses produced during the post-filling stage. ...
Numerical simulation analysis of the in-cavity residual stress distribution of lignocellulosic (wood) polymer composites used in shallow thin-walled parts formed by the injection moulding process (Elsevier, 2014-03)In this paper, a numerical analysis of in-cavity residual stress formation in the thin-walled parts of injection-moulded parts is presented by considering the residual stresses produced during the post-filling stage. ...
Shrinkages and warpage in the processability of wood-filled polypropylene composite thin-walled parts formed by injection molding (Elsevier Ltd., 2013-12)Reducing volumetric shrinkages and warpage during the injection molding process is a challenging problem in the production of molded thin-walled parts. In this study, the injection molding of shallow, thin-walled parts ...
An investigation of the processability of natural fibre reinforced polymer composites on shallow and flat thin-walled parts by injection moulding process (Elsevier B.V., 2013-09)Currently, many industries are trending towards producing products exhibit such properties as small thickness, lightweight, small dimensions, and environmental friendliness. In this project, flat or shallow thin-walled ...