Specific energy based evaluation of machining efficiency

Specific energy based evaluation of machining efficiency

Rubbing and ploughing increase the tool tip energy demand in machining. An efficient set of cutting conditions would direct the energy into material shearing and hence selecting the efficient set is a value adding activity. In this work, a side milling tests were conducted on a milling machine tool...

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Veröffentlicht in:Journal of cleaner production 2016-03, Vol.116, p.187-197
Hauptverfasser: Balogun, Vincent A., Edem, Isuamfon F., Adekunle, Adefemi A., Mativenga, Paul T.
Format: Artikel
Sprache:eng
Schlagworte:
Alloy steels
Cutters
Demand
Energy management
Machining
Machining efficiency
Materials selection
Ploughing energy
Process waste
Shearing
Specific energy
Swept angle
Undeformed chip thickness
Value adding
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container_end_page 197
container_issue
container_start_page 187
container_title Journal of cleaner production
container_volume 116
creator Balogun, Vincent A.
Edem, Isuamfon F.
Adekunle, Adefemi A.
Mativenga, Paul T.
description Rubbing and ploughing increase the tool tip energy demand in machining. An efficient set of cutting conditions would direct the energy into material shearing and hence selecting the efficient set is a value adding activity. In this work, a side milling tests were conducted on a milling machine tool to investigate the specific ploughing energy on AISI 1045 steel alloy, titanium 6Al–4V alloy and aluminium AW6082-T6 alloy materials. The relationship between the cutter swept angle and the specific ploughing energy is explored. An optimised model for width of cut and undeformed chip thickness at which ploughing effect would be minimal is proposed. The proposed methodology can be used to evaluate machining efficiency based on maximum specific shear energy and also to derive the specific ploughing energy for minimum tip energy demand. •Cutter swept angle relationship with the specific ploughing energy is explored.•Optimum cutter swept angle reduces rubbing and ploughing energy by over 50%.•The optimised ploughing effect value is found for AISI 1045 steel alloy.•A methodology to evaluate the specific ploughing energy is proposed.•Shearing dominated machining improves the process efficiency in machining.
doi_str_mv 10.1016/j.jclepro.2015.12.106
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source Elsevier ScienceDirect Journals
subjects Alloy steels
Cutters
Demand
Energy management
Machining
Machining efficiency
Materials selection
Ploughing energy
Process waste
Shearing
Specific energy
Swept angle
Undeformed chip thickness
Value adding
title Specific energy based evaluation of machining efficiency
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