Reverse Engineering Of Dogbone Mould Into Another Product

Syed Mohd Fadly , Syed Hassan (2007) Reverse Engineering Of Dogbone Mould Into Another Product. Project Report. UTeM, Melaka, Malaysia. (Submitted)

	PDF (24 Pages) Reverse_Engineering_Of_Dogbone_Mould_Into_Another_Product_Syed_Mohd_Fadly_Syed_Hassan_TS173.S66_2007_2.pdf - Submitted Version Download (240kB)
	PDF (Full Text) Reverse_Engineering_Of_Dogbone_Mould_Into_Another_Product_Syed_Mohd_Fadly_Syed_Hassan_TS173.S66_2007.pdf - Submitted Version Restricted to Registered users only Download (4MB)

Abstract

The reverse engineering terms is very familiar to re-design the product existed. Most of the product existing nowadays starts from the research in reverse engineering study. There are a lot of advantages in this field such as the cost and time can be reduce in product manufacture and also we can integrate the product into a high level usage after a few research been made. Reverse Engineering consist a few important factors such as measuring, re-design, designing a new parts using CAD sofware, analyzing, and CAM (Computer Aided Manufacturing). In this project, the scope mostly is to reverse engineering the current Dogbone Mould by producing another mould of another product which is plastic keris. The structure of runner of this plastic keris mould has been modified in order to get the optimized results. There are two types of plastic materials that used in this research which is Polypropylene High-Flow and Polypropylene Low-Flow. Analysis has been done and the most optimized parameters for Polypropylene High-Flow is 260°C for Melting Temperature and 20°C for Mold Temperature with the time of injection 2.65 second. As for Polypropylene Low-Flow, the Melting Temperature and Mold Temperature is the same as Polypropylene High-Flow and the injection time is 1.52 second. CAM simulation has been made for the plastic keris mould and the results for core is achieved only for the cavity there are a minor correction has to be made into a secondary processes.

Actions (login required)

View Item