Design and manufacture of injection mold inserts using electron beam melting

Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/94510

Title:	Design and manufacture of injection mold inserts using electron beam melting
Authors:	Rochman, Arif Borg, Althea Kate
Keywords:	Molding (Founding) Additive manufacturing Engineering design Production engineering
Issue Date:	2014-12
Publisher:	The American Society of Mechanical Engineers
Citation:	Rochman, A., & Kate Borg, A. (2014). Design and manufacture of injection mold inserts using electron beam melting. Journal of Manufacturing Science and Engineering, 136, 061011-2.
Abstract:	The capability of producing injection tool inserts using an additive manufacturing (AM) technology was investigated. Using electron beam melting (EBM), the restriction o f drilling straight cooling channels could be eliminated and freeform channels with sufficient powder removal were achieved. EBM parameters and the design of the cooling channels strongly influence the sintering degree of the powder trapped in the channels and thus the ease o f the powder removal. Despite the low heat conductivity o f the new inserts made from Ti6Al4V, the cooling performance was the same as for the conventional inserts. However, the use ofTi6Al4V is advantageous, since the expanding agent used in injection molding is very corrosive.
URI:	https://www.um.edu.mt/library/oar/handle/123456789/94510
Appears in Collections:	Scholarly Works - FacEngIME

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