The Effect of Plunge Depth on the Strength Properties of Friction Welded Joints Using the RFSSW Method

Kluz, Rafał; Kubit, Andrzej; Wydrzyński, Dawid

doi:10.12913/22998624/76547

Artykuł - szczegóły

Tytuł artykułu

The Effect of Plunge Depth on the Strength Properties of Friction Welded Joints Using the RFSSW Method

Autorzy

Kluz Rafał , Kubit Andrzej , Wydrzyński Dawid

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.12913/22998624/76547

Warianty tytułu

Języki publikacji

Abstrakty

The Refill Friction Stir Spot Welding (RFSSW) method consists of three variable process parameters: rotational speed, tool plunge time and depth. The article presents an analysis of the effects tool plunge depth on shear strength. For this purpose, samples had a shearing load applied in a device prepare for this purpose. The shear strength was determined. An analysis of the results showed that tool plunge has a large effect on the strength of the joint and the structure of the joint. Depending on the tool plunge value, three types of joint failure were observed during the static shear strength test.

Słowa kluczowe

friction stir welding joining aluminium alloys refile friction spot stir welding

zgrzewanie tarciowe łączenie stopów aluminium spawanie punktowe z mieszaniem punktowym

Wydawca

Lublin University of Technology
Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin

Czasopismo

Advances in Science and Technology. Research Journal

Rocznik

2018

Tom

Vol. 12, no 1

Strony

41--47

Opis fizyczny

Bibliogr. 27 poz., fig., tab.

Twórcy

autor

Kluz Rafał

Faculty of Mechanical Engineering and Aeronautics, University of Technology Rzeszów, Poland

autor

Kubit Andrzej

autor

Wydrzyński Dawid

Bibliografia

1. Ambroziak A.: Friction welding of materials with various properties. Oficyna Wydawnicza Politechniki Wrocławskiej, 2011. (in Polish)
2. Aota K., Ikeuchi K.: Development of friction stir spot welding using rotating tool without probe and its application to low-carbon steel plates. Welding International, 2009; 23 (8): 572–580.
3. Aota K., Takahashi M., Ikeuchi K.: Friction stir spot welding of aluminum to steel by rotating tool without probe. Welding International, 2010; 24 (2): 96–104.
4. Arul S. G., Miller S. F., Kruger G. H., Pan T. Y., Mallick P. K., Shih A. J.: Experimental study of joint performance in spot friction welding of 6111- T4 aluminum alloy. Science and Technology of welding and joining, 2008; 13: 629–637.
5. Baek S. W., Lee W. B., Koo J. M., Jung S. B.: A comparative evaluation of friction-welded and brazed Ti and AISI 321 stainless steel joints. Materials Science Forum, 2008; 580–582: 423–426.
6. Bozzi S., Helbert-Etter A.L., Baudin T., Klosek V., Kerbiguet J.G., Criqui B.: Influence of FSSW parameters on fracture mechanisms of 5182 aluminium welds. Journal of Materials Processing Technology, 2010, 210 (11): 1429–1435.
7. Buffa G., Fratini L., Piacentini M.: On the influence of tool path in friction stir spot welding of aluminum alloys. Journal of Materials Processing Technology, 2008, 208 (1−3): 309−317.
8. Choi D. H., Ahn B. W., Lee C. Y., Yeon Y. M., Song K. U., Jung S. B.: Effect of pin shapes on joint characteristics of friction stir spot welded AA5J32 sheet. Material Transactions 2010; 51(5): 1028–32.
9. Eggers J.: Refill Friction Stir Spot Welding (RFSSW). Welding aluminium accurately and consistently. HWI Weld Times, 2012: 3.
10. Hancock R.: Friction welding of aluminum cuts energy cost by 99%. Welding Journal, 2004, 83: 40−45.
11. HARMS WENDE RPS100 – Manual User 35072 – 04 pl.
12. Kenichiro M., Niels B., Livan F., Micari F., Tekkaya A. E.: Joining by plastic deformation. CIRP Annals – Manufacturing Technology, 2013; 62: 673–694.
13. Khaled T.: An outsider looks at friction stir welding. Report ANM-112N-05–06, 2005, FAA.
14. Lohwasser D. Application of Friction Stir Welding for aircraft industry. In Proceedings of the 2nd International Symposium on Friction Stir Welding, Gothenburg, Sweden, 27–29 June 2000.
15. Merzoug M., Mazari M., Berrahal L., Imad A. Parametric studies of the process of friction spot stir welding of aluminium 6060-T5 alloys. Materials and Design, 2010; 31: 3023–3028.
16. Mishra R. S., Mahoney M. W.: Friction stir welding and processing. United States of America, ASM International, 2007.
17. Mishra R. S., Zong-yi M. A.: Friction stir welding and processing. Material Science and Engineering, 2005; 50 (1−2): 1−78.
18. Montag T., Wulfsberg J., P., Hameister H., Marschner R.: Influence of Tool Wear on Quality Criteria for Refill Friction Stir Spot Welding (RFSSW) Process. Procedia CIRP, 2014; (24): 108–113.
19. Piccini J. M., Svoboda H. G.: Effect of pin length on Friction Stir Spot Welding (FSSW) of dissimilar Aluminum-steel joints. Procedia Materials Science, 2015; (9): 504–513
20. Smith C. B., Hinrichs J. F., Ruehl P. C.: Friction stir and friction stir spot welding-lean, mean, and green. Sheet metal welding conference XI, Paper 2–5, Sterling heights, MI; May 11–14, 2004.
21. Thomas W. M., Norris I. M., Staines D. G., Watts E. R.: Friction stir welding– process developments and variant techniques, The SME Summit, Oconomowoc, Milwaukee, USA, 3–4 August 2005.
22. Tier M. D., Rosendo T. S., dos Santos J. F., Huber N., Mazzaferro J. A., Mazzaferro C. P., Strohaecker T. R.: The influence of refill FSSW parameters on the microstructure and shear strength of 5042 aluminium welds. Journal of Materials Processing Technology, 2013; 213 (6): 997–1005.
23. Uematsu Y., Tokaji K.: Comparison of fatigue behaviour between resistance spot and friction stir spot welded aluminium alloy sheets. Science and Technology of welding and joining 2009; 14: 62–71.
24. Uzun H., Dalle Donne C., Argognotto A., Ghidini T., Gambaro C.: Friction Stir Welding of Dissimilar Al 6013.T4 to X5CrNi18–10 Stainless Steel. Materials and Design, 2005; 26: 41–46.
25. Watanabe T., Takayama H., Yanagisawa A.: Joining of Aluminium Alloy to Steel by Friction Stir Welding. Journal of Materials of Procesing Technology, 2006; 178: 342–349.
26. Zhang Z. H., Yang X. Q., Zhang J. L., Zhou G., Xu X. D., Zou B. L.: Effect of welding parameters on microstructure and mechanical properties of friction stir spot welded 5052 aluminum alloy. Materials and Design, 2011; 32(8–9): 4461–70.
27. Zhikang S., Xinqi Y., Zhaohua Z., Lei C., Tielong L.: Microstructure and failure mechanisms of refill friction stir spot welded 7075-T6 aluminum alloy joints. Materials and Design, 2013; 44: 476–486.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-1a0cf728-e805-4dba-aaef-36bde28d078d