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2021 | OriginalPaper | Chapter

7. Media-Assisted Machining Processes

Authors : Wit Grzesik, Adam Ruszaj

Published in: Hybrid Manufacturing Processes

Publisher: Springer International Publishing

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Abstract

It should be reminded that in the general classification of hybrid shaping processes.

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previous chapter Vibration-Assisted Machining Processes

next chapter Magnetic and Electric Field-Assisted Machining Processes

Grzesik W (2018) Advanced machining processes of metallic materials. Elsevier, Amsterdam

Lauwers B, Klocke F, Klink A, Tekkaya AE, Neugebauer R, McIntosh D (2014) Hybrid processes in manufacturing. Ann CIRP Manuf Technol 63(2):561–583CrossRef

Luo X, Qin Y (2018) Hybrid machining. Academic Press (Esevier), London

Abdelrazek A, Choudhury I, Nukman Y, Kazi S (2020) Metal cutting lubricants and cutting tools: a review on the performance improvement and sustainability assessment. Int J Adv Manuf Technol 106:4221–4245CrossRef

Internet: High pressure coolant machining. www.sandvik.coromant.com; Precision cooling technology. www.kennametal.com

Courbon C, Kramar D, Krajnik P, Pusavec F, Rech J, Kopac J (2009) Investigation of machining performance in high-pressure jet assisted turning of Inconel 718: an experimental study. Int J Mach Tools Manuf 49:1114–1125CrossRef

Shokrani A, Dhokia V, Munoz-Escalona P, Newman ST (2013) State-of—the—art cryogenic machining and processing. Int. J Comp Integr Manuf 26:616–648CrossRef

Jawahir IS, Attia H, Biermann D, Duflou J, Klocke F, Meyer D, Newman ST, Pusavec F, Putz M, Rech J, Schulze V, Umbrello D (2016) Cryogenic manufacturing processes. Ann CIRP Manuf Technol 65(2):713–736CrossRef

Busch K, Hochmuth C, Pause B, Stoll A, Wertheim R (2016) Investigation of cooling and lubrication strategies for machining high-temperature alloys. Proc CIRP 41:835–840CrossRef

10.

Ayed Y, Germain G (2018) High-pressure water-jet-assisted machining of Ti555-3 titanium alloy: investigation of tool wear mechanisms. Int J Adv Manuf Technol 96:845–856CrossRef

11.

Sterle L, Grguras D, Kern M, Pusavec F (2019) Sustainability assessment of advanced machining technologies. J Mech Eng 65:671–679CrossRef

12.

Braham-Bouchnak T, Germain G, Robert P, Lebrun JL (2010) High pressure water jet assisted machining of duplex steel: machinability and tool life. Int J Mater Form 3:507–510CrossRef

13.

Prihandana G, Mahardika M, Sriani T (2020) Micromachining in powder-mixed micro electrical discharge machining. Appl Sci 10:3795CrossRef

14.

Molinetti A, Amorim FL, Soares PC Jr, Czelusniak T (2016) Surface modification of AISI H13 tool steel with silicon or manganese powders mixed to the dielectric in electrical discharge machining process. Int J Adv Manuf Technol 83:1057–1068CrossRef

15.

Zhu Z, Dhokia VG, Nassehi A, Newman ST (2013) A review of hybrid manufacturing processes-state of the art and future perspectives. J Comp Integr Manuf 26(7):596–615CrossRef

16.

Singh AK, Kumar S, Singh VP (2015) Effect of the addition of conductive powder in dielectric on the surface properties of superalloy Super Co 605 by EDM process. Int J Adv Manuf Technol 77:99–106CrossRef

17.

Unune D, Mali H (2015) Current status and applications of hybrid micro-machining processes: a review. Proc IMEng—J Eng Manuf 229(10): 1681–1693

18.

Kunieda M, Yoshida M (1997) Electrical discharge machining in gas. Ann CIRP 46(1):143–146CrossRef

19.

Yoshida M, Kunieda M, Kaneko Y (1998) Improvement of material rate of dry EDM using piezoelectric actuator coupled with servo-feed mechanism. Processes 14th international conference CAPE CAPE’98 Tokyo pp 283–288

20.

Kozak J, Rajurkar KP, Balkrishna R (1996) Study of electrochemical jet machining process. Trans ASME J Eng Ind 118(4):490–498

21.

Masuzawa T, Takawashi T (1998) Recent trends in EDM/ECM technologies in Japan. Processes international symposium electrical machines ISEM XII Aachen Germany pp 1–15

22.

Hackert-Oschaetzchen M, Meichsner G, Zinecker M, Martin A, Schubert A (2012) Micro machining with continuous electrolytic free jet. Prec Eng 36:612–619CrossRef

23.

Liu Z, Noruaei H, Papini M, Spelt JK (2014) Abrasive enhanced electrochemical slurry jet micro–machining: comparative experiments and synergistic effects. J Mater Proc Technol 214:1886–1894CrossRef

24.

Walker C, Kamps TJ, Lam JW, Mitchell-Smith J, Clare AT (2017) Tribological behaviour of an electrochemical jet machined textured Al-Si automotive cylinder liner material. Wear 366–367:1611–1621CrossRef

25.

Blau P, Busch K, Dix M, Hochmuth C, Stoll A, Wertheim R (2015) Flushing strategies for high performance, efficient and environmentally friendly cutting. Proc CIRP 26:361–366CrossRef

26.

Pusavec F, Grguras A, Koch M, Krajnik P (2019) Cooling capability of liquid nitrogen and carbon dioxide in cryogenic milling. Ann CIRP Manuf Technol 68(1):73–76CrossRef

27.

Lu T, Dillon OW, Jawahir IH (2013) A thermal analysis framework for cryogenic machining and its contribution to product and process sustainability. Proceedings 11th global conference on sustainable manufacturing—innovative solutions Berlin pp 262–267

28.

Sadik MI, Isakson S, Malakizadi A, Nyborg L (2016) Influence of coolant flow rate on tool life and wear development in cryogenic and wet milling of Ti-6Al-4V. Proc CIRP 46:91–94CrossRef

29.

Tapoglou N, Lopez MA, Cook I, Taylor ChM (2017) Investigation of the influence of CO₂ coolant application on tool wear. Proc CIRP 63:745–749CrossRef

30.

Stefansson T (2014) Application of cryogenic coolants in machining processes. KTH, Stockholm

31.

M’Saoubi R, Axinte D, Leung Soo S, Nobel Ch, Attia H, Kappmeyer G, Engin S, Wei-Ming S (2015) High performance cutting of advanced aerospace alloys and composite materials. Ann CIRP Manuf Technol 64(2):557–580CrossRef

32.

Knopf J, Grimm L, Ghosh R, Gibson D (2013) Cryogenic machining of PEEK. Proceedings 1st PEEK conference Philadelphia

Title: Media-Assisted Machining Processes
Authors: Wit Grzesik
Adam Ruszaj
Publisher: Springer International Publishing
Book: Hybrid Manufacturing Processes
Print ISBN: 978-3-030-77106-5

Electronic ISBN: 978-3-030-77107-2

Copyright Year: 2021
DOI: https://doi.org/10.1007/978-3-030-77107-2_7

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