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Hybrid additive and subtractive manufacturing processes and systems: a review

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This review paper highlights the hybrid manufacturing processes which integrate the additive and subtractive processes performing on one hybrid platform consisting of the LMD (laser metal deposition) unit and CNC machine tools. In particular, some important rules and advantages as well as technological potentials of the integration of different AM technique and finishing CNC machining operations are discussed and overviewed. Some representative examples such as formation of difficult features around the part periphery, deposition of functional layers and coatings and repair of high-value parts in aerospace industry are provided. Some conclusions and future trends in the implementation of hybrid processes are outlined.
Rocznik
Strony
5--24
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
  • Faculty of Mechanical Engineering, Opole University of Technology, Opole, Poland
Bibliografia
  • [1] LAUWERS B., KLOCKE F., KLINK A., TEKKAYA A.E., et al., 2014, Hybrid processes in manufacturing, CIRP Annals-Manuf. Technol., 63/2, 561-583.
  • [2] GRZESIK W., 2017, Advanced machining processes of metallic materials, Amsterdam, Elsevier.
  • [3] ZHU Z., DHOKIA V.G., NASSEHI A., NEWMAN S.T., 2013, A Review of hybrid manufacturing processes, Int. J. Comp. Integr. Manuf., 26, 596-615.
  • [4] NORFOLK M., 2018, The top 5 reasons hybrid additive manufacturing make sense, www. fabrisonic.com,
  • [5] HUDSON R., Hybrid system combines additive and subtractive manufacturing, www.mitsuiseiki.com.
  • [6] YAMAZAKI T., 2016, Development of a hybrid multi-tasking machine tool: Integration of additive technology with CNC machining, Proc. CIRP, 42, 81-86.
  • [7] HASCOËT J-Y., QUERARD V., RAUCH M., 2017, Interests of 5 axis toolpaths generation for wire ARC additive manufacturing of aluminium alloys, J. Mach. Eng., 17/3, 51-65.
  • [8] JONES J.B., 2014, The synergies of hybridizing CNC and additive manufacturing, Hybrid Manufacturing Technologies Ltd.
  • [9] MANOGHARAN G., WYSK R., HARRYSSON O., AMAN R., 2015, AIMS – a metal additive hybrid manufacturing system: system architecture and attributes, Proc. Manuf., 1, 273-286.
  • [10] Mazak's VC-500 AM Hybrid speeds multitasking, additive manufacturing. www.mazak.com, 2016.
  • [11] Additive Manufacturing in Milling Quality. www. dmgmori.com, 2017.
  • [12] Reclaim project – Remanufacturing the future. www. catapult.org.uk, 2012.
  • [13] SOTTAK T., Hybrid manufacturing. 3D printed metals-core applications, ww.optomec.com, 2018.
  • [14] Hybrid manufacturing process ensures maximum productivity in metalworking applications, PC Control 2016. www. hybridmanutech.com.
  • [15] NAGEL J.S., LIOU F.W., 2012, Hybrid manufacturing system. Design and development. Manufacturing Systems, Chapter 11, ed. F.A. Aziz, InTech Europe, Rijeka.
  • [16] DU W., BAI Q., ZHANG B., 2016, A novel method for additive/subtractive hybrid manufacturing of metallic parts, Proc. Manuf., 5, 1018-1030.
  • [17] FLYNN J.M., SHOKRANI A., NEWMAN S.T., DHOKIA V., 2016, Hybrid additive and subtractive machine tools-research and industrial developments, Int. J. Mach. Tools Manuf., 101, 79-101.
  • [18] LIU J., WANG X. AND WANG Y., 2017, A complete study on satellite thruster structure (STS) manufactured by a hybrid manufacturing (HM) process with integration of additive and subtractive manufacture, Int. J. Adv. Manuf. Technol., 92, 4367-4377.
  • [19] SCHMIDT M., MERKLEIN M., BOURELL D., DIMITROV D., et al., 2017, Laser based additive manufacturing in industry and academia, CIRP Annals Manuf. Technol. 66/2, 561-583.
  • [20] Technology Spotlight, 2018, Hybrid additive/subtractive machining centre, Matsuura Machinery. www.matsuurausa.com.
  • [21] Laser Deposition Technology (LDT): Examples. www.rpm-innovations.com.
  • [22] LEE W., WEI CH., CHUNG S., 2014, Development five-axis machining, J. Mater. Process. Technol., 214, 2366-2374.
  • [23] Hybrid Manufacturing, The world's first hybrid turbine blade & turbo fan remanufacturing machine. www. hamuel.com.
  • [24] ZHANG X., LI W., CHEN X., CUI W., LIOU F., 2018, Evaluation of component repair using direct metal deposition from scanned data, Int. J. Adv. Manuf. Technol., 95, 3335-3348.
  • [25] PRZESTACKI D., CHWALCZUK T., WOJCIECHOWSKI S., 2017, The study on minimum uncut chip thickness and cutting forces during laser-assisted turning of WC/NiCr clad layers, Int. J. Adv. Manuf. Technol., 91, 3887-3898.
  • [26] UHLMAN E., PASTL PONTES R., LAGHMOUCHI A., et al., 2017, Intelligent pattern recognition of SLM machine energy data, J. Mach. Eng., 17/2, 65-76.
  • [27] MERKLEIN M., JUNKER D., SCHAUB A., NEUBAUER F., 2016, Hybrid additive manufacturing technologies - an analysis regarding potential and applications, Physics Proc., 83, 549-559.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a05323d2-13f7-4060-b0a1-5f4ea9652db5
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