Process planning for combined additive and subtractive manufacturing technologies in a remanufacturing context

•An approach based on additive and subtractive manufacturing combination to produce new parts from existing parts is proposed.•The process planning design for combining additive and subtractive manufacturing technologies is deeply discussed.•Different rules to respect manufacturing constraints are d...

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Bibliographic Details
Published in:Journal of manufacturing systems 2017-07, Vol.44, p.243-254
Main Authors: Le, Van Thao, Paris, Henri, Mandil, Guillaume
Format: Article
Language:English
Subjects:
Additive manufacturing
Additive manufacturing feature
CNC Machining
Engineering Sciences
Life cycle
Machining feature
Mechanical engineering
Mechanics
Process planning
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Summary:•An approach based on additive and subtractive manufacturing combination to produce new parts from existing parts is proposed.•The process planning design for combining additive and subtractive manufacturing technologies is deeply discussed.•Different rules to respect manufacturing constraints are defined and applied during the design of process planning.•The feasibility of additive and subtractive manufacturing combination used in the remanufacturing context is demonstrated. In recent years, additive manufacturing (AM) techniques provide the capability to build parts directly from CAD models by adding materials layer by layer. This technique allows producing complex parts that are not able to be manufactured by machining. However, AM techniques also present some limitations, such as poor surface quality, reduced dimensional accuracy, limited materials available and long production time when compared to CNC machining. To overcome these limitations, the combination of additive and subtractive (i.e. CNC machining) technologies is today considered as a promising solution for current manufacturing issues. This paper demonstrates the feasibility of combining these technologies for the manufacture of given parts from end-of-life (EoL) parts (or existing parts). The proposed approach aims to reuse existing parts directly to produce new parts (or final parts), avoiding the material recycling stage. The final parts are then intended for another product, namely the existing parts have a new life in their life cycle. This paper particularly focuses on the design of process planning for combined additive and subtractive processes, using the concept of AM and machining features. The design of process planning is performed based on the knowledge of additive and subtractive processes, the technological requirements, and the available resources. To respect constraints and considerations in manufacturing processes, different rules are defined and applied in the design of process planning. Finally, the efficacy of the proposed approach is demonstrated through the case study.
ISSN:0278-6125
1878-6642
DOI:10.1016/j.jmsy.2017.06.003