Abstract
Some important trends in the development of advanced machining processes with potential applications in Production/Manufacturing 4.0 are presented. In general, both conventional and unconventional machining processes are characterized in terms of potential technological possibilities related to their hybridization allowing the performance of more productive and effective machining processes. This is due to the fact that hybrid processes considerably enhance the advantages of individual processes and minimize potential disadvantages in individual processes. Possible classification systems of hybrid processes including the CIRP terminology are overviewed and some representative examples are provided. In particular, the hybrid machining processes based on the simultaneous and controlled interaction of process mechanisms and/or energy sources leading to the synergic effect (1 + 1 = 3) on the process performance are taken into account. Some conclusions and future trends in the implementation of hybrid processes are outlined.
Highlights
Some important trends in the development of advanced machining processes with potential applications in Production/ /Manufacturing 4.0 are presented
Zasady łączenia procesów składowych w procesy hybrydowe przedstawiono na rys. 9
Annals of the CIRP Manufacturing Technology. 65, 2 (2016): s. 713–736
Summary
Przedstawiono trendy w rozwoju procesów obróbki ubytkowej w strategii Produkcja/Wytwarzanie 4.0. Some important trends in the development of advanced machining processes with potential applications in Production/ /Manufacturing 4.0 are presented. Both conventional and unconventional machining processes are characterized in terms of potential technological possibilities related to their hybridization allowing the performance of more productive and effective machining processes. This is due to the fact that hybrid processes considerably enhance the advantages of individual processes and minimize potential disadvantages in individual processes. Obecnie rozwija się koncepcja hybrydowego procesu wytwarzania poprzez zintegrowanie w jednym urządzeniu wieloosiowej obróbki ubytkowej i obróbki przyrostowej (addytywnej) – additive manufacturing (AM) [2]. Klasyfikacja zaawansowanych procesów obróbki ubytkowej (AMP) ze względu na wykorzystaną do usuwania materiału energię, z podaniem źródła energii, narzędzia i medium transferu energii, oraz mechanizm usuwania materiału [4, 5]
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