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In presented paper perform prototype machine which consist of two independent motion axis equipped with force sensors. Used force sensors provide control of forming connection. Special design of the machine provide to make tensile strength test on it. Prepared nine samples to carried out tests, which revealed the influence between change of jaws displacement during plastic deformation and strength of that joint. Created prototype stand base on two independent drive units allow to make that connection possible. Choosing right parameters leads to generate joints which are more than twice stronger than basic sample reaching more than 920N.
Rocznik
Tom
Strony
212--223
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr.
Twórcy
autor
- “PRO-ZAP” Introl Group, Mechanical Design Department 63-400 Ostrów Wlkp., Grabowska 47a, POLAND
autor
- “PRO-ZAP” Introl Group, Mechanical Design Department 63-400 Ostrów Wlkp., Grabowska 47a, POLAND
autor
- “PRO-ZAP” Introl Group, Mechanical Design Department 63-400 Ostrów Wlkp., Grabowska 47a, POLAND
autor
- Yonsei Frontier Lab, Yonsei University, 50 Yonsei-ro, Seodaemun-gu Seoul, 03722, REPUBLIC OF KOREA
autor
- Opole University of Technology, Faculty of Mechanical Engineering 45-001 Opole, St. Mikołajczyka 5, POLAND
autor
- Mechanical Faculty Zalesie, 63-400 Ostrów Wlkp., Lamki Zalesie 11, POLAND
Bibliografia
- [1] Meschut G., Hahn O., Janzen V. and Olfermann T. (2014): Innovative joining technologies for multi-material structures.– Welding In the World, vol.58, No.1, pp.65-75.
- [2] Berger L., Lesemann M., Sahr C., Hart S. and Taylot R. (2009): SuperLIGHT-CAR-the Multi-Material Car Body.– 7th European LS-DYNA Conference., pp.2.
- [3] Mucha J. (2017): Clinching technology in the automotive industry.– The Arch. of Automotive Engineering, vol 76, No.2, pp.75-94.
- [4] Peng H., Chen C., Ren X. and Wu J. (2022): Development of clinching process for various materials.– Int. J. Adv. Man. Tech. vol.119 p.99-117.
- [5] Meschut G. Merklein M., Brosius A., Drummer D., Fratini L., Füssel U., Gude M., Homberg W., Martins P.A.F., Bobbert M., Lechner M., Kupfer R., Gröger B., Han D., Kalich J., Kappe F., Kleffel T., Köhler D., Kuball C.-M., Popp J., Römisch D., Troschitz J., Wischer C., Wituschek S., Wolf M. (2022): Review on mechanical joining by plastic deformation.– J. of Adv. Joi. Proc., vol.5, Article No.100113, pp.1-27, https://doi.org/10.1016/j.jajp.2022.100113.
- [6] Eshtayeh M.M., Hrairi M. and Mohiuddin A.K.M. (2016): Clinching process for joining dissimilar materials: state of the art.– Int. J. of Adv. Man. Tech., vol.82, No.1-4, pp.179-195.
- [7] Abe. Y., Mori K., Kato T., (2012): Joining of high strength steel and aluminum alloy sheets by mechanical clinching with dies for control of metal flow.– J. of Mat. Proc. Tech., vol.212, No.4, pp.884-889.
- [8] Lambiase F. and di Ilio A., (2018): Joining aluminum with titanium alloy sheets by mechanical clinching.– J. of Man. Proc., vol.35, pp.457-465.
- [9] Lambiase F., (2015): Joinability of different thermoplastic polymers with aluminum AA6082 sheets by mechanical clinching.– Int. J. of Adv. Man. Tech., vol.80, No.9-12, pp.1995-2006.
- [10] Han S., Wang Z., Wang Z., Li Z. and Li Y., (2021): Heat-assisted hole-clinching process for joining magnesium alloy and ultra-high-strength steel.– I. J. of Adv. Man. Tech., No.115, pp.551-561.
- [11] Ran X., Chen C., Zhang H. and Ouyang Y. ( 2021): Investigation of the clinching process with rectangle punch.– Thin-Walled Str., vol.166, Article No.108034, https://doi.org/10.1016/j.tws.2021.108034.
- [12] Peng H. Chen C., Ren X., Ran X. and Qin D. (2022): Static strength analysis and experimental research of clinched joints by two-stroke flattening clinching method.– Int. J. of Adv. Man. Tech., vol.119, No.7-8, pp.5377-5387.
- [13] Qin D. and Chen C. (2022) Research on the mechanical property and failure mechanism of the dieless clinched joints of various aluminum alloys.– Eng. Fail. Anal., vol.137, Article No.106384, https://doi.org/10.1016/j.engfailanal.2022.106384.
- [14] Babalo V., Fazli A. and Soltanpour M. (2021): Experimental study of the mechanical performance of the new high-speed mechanical clinching.– Int. J. of Lig. Mat. And Man., vol.4, No.2, pp.218-236.
- [15] Vitzthum S., Hiller M. and Volk W. (2019): Experimental investigation of the scalability of roller-clinching processes with regard to joint strength and failure mode.– Materwiss Werksttech, vol.50, No.8, pp.1015-1026.
- [16] Pacia T. (2020): Metpartner” [Online].– Available: https://emetal.eu/aluminium/aluminium-EN-AW-6060-ISO_- AlMgSi-EN_-AW-AlMgSi-PN_-PA-38-DIN_-AlMgSi0,5-wnr_-3.3206/ [Accessed 11-Aug-2022].
- [17] Aluminco (2019): Aluminco_Aluminium-alloy-EN-AW-6060_material-data-sheet_Aluminco.– Available: https://pl.scribd.com/document/333820634/Aluminium-Alloy-en-Aw-6060-Material-Data-Sheet-Aluminco, [Accessed 22-Fev-2019].
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-13c142d7-e534-4bee-9c7a-30f26dd6b941