The Paton Welding Journal, 2012, №04



2012 №04 (07)

2012 №04 (09)

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The Paton Welding Journal, 2012, #4, 42-46 pages  

FIELDS OF APPLICATION OF MAGNETIC-PULSE WELDING (REVIEW)

M.A. POLESHCHUK, I.V. MATVEEV and V.A. BOVKUN

E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
 
 
Abstract
The review considers the main directions of investigation of magnetic-pulse welding. Weldability of the combined welded joints is evaluated, and fields of application of this process are given.
 
 
Keywords: magnetic-pulse welding, directions of investigations, tubular products, equipment, weldability, fields of application of magnetic-pulse welding
 
 
Received:                18.01.12
Published:               28.04.12
 
 
References
1. Lenen, T., Siewert, T., Babu, S. et al. (2011) Welding fundamentals and processes: ASM handbook 6A. ASM Int.
2. Berlin, A. (2011) Magnetic pulse welding of Mg sheet: A thesis for degree master of applied science in mechanical engineering (Waterloo, Ontario, Canada, 2011), 10-11.
3. Hahn, R. (2004) Werkzeuge zum impulsmagnetischen Warmfuegen von Profilen aus Aluminium und Magnesiumlegierungen: Diss. Berlin.
4. Groche, P., Elsen, A. (2010) Fundamentals of EMPT-welding. Technische Universitat Darmstadt. In: Proc. of 4th Int. Conf. on High Speed Forming (Columbus, Ohio, USA, March 9/10, 2010), 40.
5. Zhang, Y., Babu, S., Daehn, G.S. (2010) Impact welding in a variety of geometric configurations. Ohio: State University.
6. Desai, S.V. (2010) Scaling relationships for input energy in electromagnetic. J. Electromagnetic Analysis & Applications, 2, 563-570.
7. Pismenny, A.S., Pentegov, I.V., Stemkovsky, E.P. et al. (2004) Calculation of modes of magnetic-pulse welding. The Paton Welding J., 11, 13-16.
8. Pismenny, A.S., Pentegov, I.V., Stemkovsky, E.P. et al. (2009) Improved method for calculating magnetic-pulse welding conditions. Ibid., 1, 18-21.
9. Filimonov, A.S., Bayanova, Ya.M., Metelin, I.V. et al. (2010) Application of magnetic-pulse welding for producing of thin-wall small-sized parts of aircrafts. Moscow: MGTU im. N.E. Baumana.
10. Weber, A. (2002) The cold welding process is being used for more and more high-volume applications. Assembly Magazine, Aug., 3-6.
11. (2011) L'assemblage par impulsion magnetique Е MPT magnetic pulse technology. Technopole. dev.swi.heig-vd. ch/fr-ch/Micro/Documents/3-Magnetic-Pulse-Technology.pdf
12. (1982) The next wave in manufacturing solid state cold welding. www.ai-online.com/Adv/Previous/showissue. php?id=1982
13. Magnetic pulse welding is Dana original. www.mtiwelding. com/files/Automotive Engineering Intl Aug. 1998 MAGNETIC PULSE WELDING.pdf
14. Information documents of Society Dana Corp. www.atp. nist.gov/eao/sp950-3/danacorp.pdf
15. PST products presents the world's first EMPT welded light-weight space frame at the Schweisstec fair. etcna.netrics. ch/public/pstproducts_press_release_spaceframe including photos.pdf
16. Kallee, S.W. (2010) Industrialisation of electromagnetic pulse technology (EMPT) in India. www.msm.cam.ac.uk/ phase-trans/2010/IPM.pdf
17. Schafer, R., Pasquale, P., Kallee, S. (2010) The electromagnetic pulse technology (EMPT): Forming, welding, crimping and cutting. ing.dk/modules/fsArticle/download.pnp? fileid=740
18. Shribman, V. (2008) Magnetic pulse welding for dissimilar and similar materials. In: Proc. of 3rd Int. Conf. on High Speed Forming (Dortmund, 2008). eldorado.tu-dortmund. de/bitstream/2003/27107/29.pdf
19. TI automotive adopts pulsar magnetic pulse welding systems for automotive air-conditioning components leading global manufacturer of automotive HVAC systems to use pulsar MPW 25 to weld automotive dryers. Auto spectator. www.autospectacor.com/cars/automotive-manufacturing/0023205-ti-automotive-adopts-pulsar-magnetic-pulse-welding-systems-automoti
20. Hamilton, M.L., Gelles, D.S., Lobsinger, L.J. et al. (2000) Fabrication technological development of the oxide dispersion strengthened alloy MA957 for fast reactor applications. Richland: Pacific Northwest National Laboratory. www.pnl. gov/main/publications/external/technical_reports/PNNL-13168.pdf
21. McGinley, J. (2009) Electromagnetic pulse technology as a means of joining generation IV cladding materials. European Commission JRC-ITU. In: Proc. of 17th Int. Conf. on Nuclear Engineering ICONE 17 (July 12-16, 2009, Brussels, Belgium). www.english.pstproducts.com/index_htm_files/ icone%20 17_FINAL%20 version.pdf
22. Shri, S.C. (2011) Chetal sodium cooled fast reactors. Kalpakkam: Indira Gandhi centre for atomic research. www.igcar.gov.in/gap_web/l.htm"stl_4_2_4
23. Fischer, A., Bolser, D.R. (2006) Electromagnetic pulse welding of fluid joints. Pat. Appl. 20060208481 USA. Int. Cl. F16L47/00, F16L4700. Publ. 21.09.2006.
24. Batsemakin, M.Yu. (2007) Technology of magnetic pulse welding of thin-wall tubular parts: Syn. of Thesis for Cand. of Techn. Sci. Degree. Rostov-na-Donu.
25. Plotnikov, V.V. (2007) Development of process and equipment for magnetic pulse welding of light-weight electric connector shells: Syn. of Thesis for Cand. of Techn. Sci. Degree. Rostov-na-Donu.
26. Willekers, R.W., Bosch, W.A., Mathu, F. et al. (1989) Impact welding: a superior method of producing joints with high thermal conductivity between petals at very low temperatures. Vol. 29, Issue 9, 904-906. www.sciencedirect. com/science/article/pii/0011227589902038
27. Minev, R.M., Dimov, S.S., Koev, S.R. et al. Explosive welding of Ni-base amorphous foils for micro-tooling applications. www.4m-net.org/files/papers4M2008/05-13/05-13.pdf
28. (2010) It's a knockout. Engineers find a new way to punch holes through steel. The Economist, Jan. 14.

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