SEARCH FOR KEYWORDS IN A HYBRID TECHNOLOGIES FIELD, BASED ON ULTRASONICALLY AIDED EDM-ECM USING THE ONLINE ENVIRONMENT

Authors

  • Liviu Daniel Ghiculescu Politehnica University of Bucharest
  • Claudiu Pirnau Politehnica University of Bucharest
  • Cornel Enciu Politehnica University of Bucharest
  • Gabriela Pirvu (Ene) Politehnica University of Bucharest

Keywords:

advanced materials, electrical-discharge machining, hybrid machining, electrochemical machining, micro EDM/ ECM, hybrid ultrasonic machining

Abstract

In the present study we established for the “Nonconventional Technologies” research field, the composition of a keyword vector (terms specific to the analyzed field) = {advanced materials, electrical-discharge machining, hybrid machining, electrochemical machining, micro EDM, micro-ECM, hybrid ultrasonic machining} to carry out a research based on two main directions/components. The first component consists in the process of identifying the works that address the specific terms in the composition of the above vector in Web of Science. The second component is the analysis of the interest of Google users, in searches based on the keyword vector. The emergence, development and diversification of the technologies that make up the keyword vector in this paper is mainly due to their use in the processes of advanced materials machining. The importance, and the key role played by advanced materials and technologies is emphasized by utmost personalities from the academic, research and industry fields.

References

1. Gavrilaș, I. and Marinescu, N.I., Electrical discharge machining and abrasive electrochemical machining, Editura Tehnică, Volume 1, 2; (1980).
2. Cristea, B.I. Ghiculescu, L.D. and Mnerie, D., Thermal and Mechanical Influence of Ultrasonically Aided Electrical Discharge Machining on Co-Cr Alloys, Advanced Materials Research, Trans Tech Publ., (2020).
3. Shrivastava, P.K. and Dubey, A.K., Electrical discharge machining-based hybrid machining processes: A review, Proceedings of The Institution of Mechanical Engineers Part B-Journal of Engineering Manufacture, Volume 228, Issue 6, pp. 799-825, (2014).
4. Ghiculescu, L.D., Nonconventional machining, Printech, Bucharest, (2014).
5. Schuh, G. Kreysa, J. and Orilski, S., Roadmap, Hybride Produktion, ZWF Zeitschrift fűr wirtschaftlichen Fabrikbetrieb, Hanser Verlag 104 (5), pp. 385-391, (2009).
6. Krishna, K.S. Mattia, B. Jun, Q. Dominiek, R. Bert, L. and Xichun, L., Overview of Hybrid Machining Processes, Hybrid Machining, Chapter 2, pp. 21-41, DOI: https://doi.org/10.1016/B978-0-12-813059-9.00002-6, Elsevier Ltd. (2018).
7. Chavoshi, S.Z. and Luo, X.C., Hybrid micro-machining processes: A review, Precision Engineering-Journal of The International Societies for Precision Engineering and Nanotechnology, Volume 41, pp. 1-23, ISSN 0141-6359, (2015).
8. Klocke, F. Roderburg, A. and Zeppenfeld, C., Design methodology for hybrid production processes, Proc. Eng. 9, pp. 417-430, (2011).
9. Brehl, D.E. and Dow, T.A., Review of vibration-assisted machining, Precision Eng. 32 (3), pp.153-172, (2008).
10. Skoczypiec, S., Research on ultrasonically assisted electrochemical machining process, Int. J. Adv. Manuf. Technol. 52 (5_8), pp. 565-574, (2011).
11. Nguyen, M.D. Rahman, M. and Wong, Y.S., Enhanced surface integrity and dimensional accuracy by simultaneous micro-ED/EC milling, CIRP Ann. 61 (1) (2012) 191_194, Verein Deutscher Ingenieure-VDI-Richtlinien, (2009).
12. Liu, H. S. Yan, B. H. Chen, C. L. and Huang, F.Y., Application of micro-EDM combined with high-frequency dither grinding to micro-hole machining, International Journal of Machine Tools & Manufacture, 46, pp. 80-87, (2006).
13. Thoe, T.B. Aspinwall, D.K. and Killey, N., Combined ultrasonic and electrical discharge machining of ceramic coated nickel alloy, Journal of Materials Processing Technology, 92-93 323-328, (1999).
14. Nurbol, S. Jahan, M.P. Azat, B. and Asma, P., Ultrasonic Vibration Assisted Electro-Discharge Machining (EDM)-An Overview, MDPI Materials 12(522), (2019).
15. Pirnau, C. Marinescu, M.R. Ghiculescu, L.D. and Pirnau, M., The unconventional technologies reflected in Web of Science, Nonconventional Technologies Review, Romania, Politehnica Publishing House, Vol. 24, No.1, (2020).
16. Mohamed, Y.K. and Sudhakar R.P., Hybridization of Electrical Discharge Machining Process, International Journal of Engineering and Advanced Technology (IJEAT)
ISSN: 2249 – 8958, Volume-9, Issue-1, October (2019).
17. https://www.engineeredmechanicalsystems.com/hybrid-machining-systems/ (Published: 03.07.2020; Accesed: 27.08.2021).
18. Majewska, J., Identification of multivariate outliers-problems and challenges of visualization methods. Informatyka i Ekonometria 4, pp. 69–83, (2015).

Published

2021-09-30

How to Cite

Ghiculescu, L. D., Pirnau, C., Enciu, C., & Pirvu (Ene), G. (2021). SEARCH FOR KEYWORDS IN A HYBRID TECHNOLOGIES FIELD, BASED ON ULTRASONICALLY AIDED EDM-ECM USING THE ONLINE ENVIRONMENT. Nonconventional Technologies Review, 25(3). Retrieved from http://www.revtn.ro/index.php/revtn/article/view/347

Issue

Vol. 25 No. 3 (2021): Nonconventional Technologies Review

Section

Articles

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