Simulation based energy and resource efficient casting process chain selection: a case study

Salonitis, Konstantinos; Jolly, Mark R.; Zeng, Binxu

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dc.contributor.author	Salonitis, Konstantinos
dc.contributor.author	Jolly, Mark R.
dc.contributor.author	Zeng, Binxu
dc.date.accessioned	2017-03-24T09:36:32Z
dc.date.available	2017-03-24T09:36:32Z
dc.date.issued	2017-03-20
dc.identifier.citation	Konstantinos Salonitis, Mark Jolly, Binxu Zeng, Simulation based energy and resource efficient casting process chain selection: a case study, Procedia Manufacturing, Volume 8, 2017, pp67-74	en_UK
dc.identifier.issn	2351-9789
dc.identifier.uri	http://dx.doi.org/10.1016/j.promfg.2017.02.008
dc.identifier.uri	https://dspace.lib.cranfield.ac.uk/handle/1826/11647
dc.description.abstract	Casting processes are among the most energy intensive manufacturing processes. A typical modern casting process contains different stages, classified as melting-alloying, moulding, pouring, solidification, fettling, machining and finishing respectively. At each stage, large amounts of energy are consumed. Since a number of different casting processes exist, it is not always straightforward which process chain to select among the available ones. Up to now the selection is based on cost criteria. This paper focuses on the different criteria that needs to be considered and how they can be simulated focusing especially on the energy and resource efficiency of casting stages. A disruptive technology that uses a rapid induction furnace to melt just enough metal for a single mould rather than bulk melting used in traditional processing is proposed and validated.	en_UK
dc.language.iso	en	en_UK
dc.publisher	Elsevier	en_UK
dc.subject	Casting	en_UK
dc.subject	Simulation	en_UK
dc.subject	Energy efficiency	en_UK
dc.title	Simulation based energy and resource efficient casting process chain selection: a case study	en_UK
dc.type	Article	en_UK