Resistance spot weld bonding of steel sheets

Main Article Content

Szymon Kowieski
Jolanta Matusiak

Abstract

The use of innovative resistance welding methods with bonding for joining construction materials opens new possibilities in expanding ranges of combined materials in various industrial sectors.
The article presents the results of experiments of resistance spot welding-adhesive bonding, using
the weld-through technique. The influence of welding conditions (technological parameters of welding) and adhesive bonding conditions (method of surface preparation, size and thickness of the overlap during bonding) on the process of creating hybrid connections is presented. The tests combined DC01 steel sheets without protective coverings and DP 600 with Z140 zinc protective coating and designed for applications in the automotive industry one-component epoxy adhesive was used.

Downloads

Download data is not yet available.

Article Details

How to Cite
[1]
S. Kowieski and J. Matusiak, “Resistance spot weld bonding of steel sheets”, Weld. Tech. Rev., vol. 91, no. 10, pp. 25–33, Nov. 2019.
Section
Original Articles

References

Moroni F., Pirondi A., Kleiner F., Experimental analysis and comparison of the strength of simple and hybrid structural joints. International Journal of Adhesion and Adhesives, 2010, Vol. 30(5), 367-379.

Peroni K., Avalle M., Belingardi G., Comparison of the energy absorption capability of crash boxes assembled by spot-weld and continuous joining techniques, International Journal of Impact Engineering, 2009, Vol. 36(3), 498-511.

Darwish S. M. H., Ghanya A., Critical assessment of weld-bonded technologies, Journal of Materials Processing Technology, 2000, Vol. 105(3), 221-229.

Gonçalves V. M., Paulo AF Martins, Joining stainless steel parts by means of weld bonding. International Journal of Mechanics and Materials in Design, 2006, Vol. 3(1), 91-101.

Al-Samhan A., Darwish S. M. H., Strength prediction of weld-bonded joints, International Journal of Adhesion and Adhesives, 2003, Vol. 23(1), 23-28.

Messler R.W., Weld-bonding: the best or worst of two processes? Industrial Robot: An International Journal, 2002, Vol. 29(2), 138-148.

Zhang Y. S., et al. Comparison of mechanical properties and microstructure of weld nugget between weld-bonded and spot-welded dual-phase steel, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2009, Vol. 223(10), 1341-1350.

Darwish S. M., Characteristics of weld-bonded commercial aluminum sheets (BS 1050), International Journal of Adhesion and Adhesives, 2003, Vol. 23(3), 169-176. DOI: 10.1016/S0143-7496(03)00009-5

Cavalli M. N., Thouless, M. D., Yang, Q. D., Cohesive-zone modeling of the deformation and fracture of weld-bonded joints, Welding Journal-New York, 2004, Vol. 83(4), 133-S.

Ghosh P. K., Weldbonding of Stainless Steel, ISIJ International, 2003, Vol. 43(1), 85-94.

Shen J., et al. Adhesive placement in weld-bonding multiple stacks of steel sheets, Welding Journal, 2012, Vol. 91(5).

Nordberg H., Fatigue Properties of Stainless Steel Lap Joints. Spot Welded, Adhesive Bonded, Weldbonded, Laser Welded and Clinched Joints Stainless Steel Sheets-A Review of their Fatigue Properties, SAE Technical Paper, 2005.

Giurgiutiu V., et al. Adaptive health monitoring concepts for spot-welded and weld-bonded structural joints, ASME-PUBLICATIONS-AD, 1997, Vol. 54, 99-104.

Kowieski Sz., Skoczewski P., Matusiak J., i in.: Zgrzewanie rezystancyjne punktowe z klejeniem blach stalowych, Praca badawcza Instytutu Spawalnictwa Nr Ba-54, Gliwice 2018, Niepublikowana

Krajewski S., Nowacki J., Mikrostruktura i właściwości stali o wysokiej wytrzymałości AHSS, Welding Technology Review, 2011, Vol. 83(7), 22-27.

Most read articles by the same author(s)