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Purpose: Of this paper is the evaluation of three different surface treatments on a duplex stainless steel, in order to improve its adhesive properties on a thermoplastic like polysulfone. Design/methodology/approach: In order to improve the adhesion between stainless steel and polysulfone, shot-peening, acid (aqua regia) etching and atmospheric pressure plasma jet have been used. The topography and surface activation effects have been evaluated by means of SEM and contact angle measurements. Additionally, aging studies have been performed to evaluate the effect of storage time of parts on atmospheric plasma torch surface treatment. Finally, to test the effectiveness of the treatments, it has been carried out successfully shear strength tests by tension of adhesive assemblies previously modified with the treatments. It has been also examined rupture failures that have occurred in these assemblies. Findings: Aqua regia and plasma torch treatments have reached the optimal surface modification condition under wettability criteria. Shear strength tests demonstrated that the improved surface adhesion provided on this substrate and the polysulfone is achieved by shot-peening and acid etching treatments. Research limitations/implications: A deeper analysis varying several conditions like humidity could be suggested in order to evaluate the effectiveness of surface treatment. Originality/value: Up to now there is no any study in the literature about the comparison of different surface treatment on duplex stainless steels and the subsequent evaluation of the adhesion of a polymer like polysulfone.
Wydawca
Rocznik
Tom
Strony
86--93
Opis fizyczny
Bibliogr. 10 poz.
Twórcy
autor
- Materials Science and Chemical Engineering Department, Carlos III University of Madrid Avda. Universidad, 30 28911 Leganés, SpainSotomayor
autor
- Materials Science and Chemical Engineering Department, Carlos III University of Madrid Avda. Universidad, 30 28911 Leganés, Spain
autor
- Euroortodoncia SA, Polígono Industrial Urtinsa, C/Aeronáutica, 18 2 892 3 Alcorcón, Spain
autor
- Materials Science and Chemical Engineering Department, Carlos III University of Madrid Avda. Universidad, 30 28911 Leganés, Spain
autor
- Materials Science and Chemical Engineering Department, Carlos III University of Madrid Avda. Universidad, 30 28911 Leganés, Spain
Bibliografia
- [1] M.C. Kim, D.K. Song, H.S. Shin, et al., Surface modification for hydrophilic property of stainless steel treated by atmospheric-pressure plasma jet, Surface and Coatings Technology 171 (2003) 312-316.
- [2] B.A. Kalin, V.L. Yakushin, V.L. Vasiliev, S.S. Tserevitinov, Use of high temperature pulsed plasma fluxes in modification of metal materials, Surface Coating Technology 96/1 (1997) 110-116.
- [3] S. Herrwerth, W. Eck, S. Reinhardt, M. Grunze, Factors that determine the protein resistance of oligoether self-assembled monolayers – Internal hydrophilicity, terminal hydrophilicity, and lateral packing density, Journal of the American Chemical Society 125/31 (2003)9459-9366.
- [4] R.A. Lula, Stainless steels, 5th Ed. American Society for Metals, USA, 1993.
- [5] Y.H. Kim, Y.H. Choi, J.H. Kim, J.K. Park, et al„ Characterisations of atmospheric pressure ejected plasma sources, Surface and Coatings Technology 174175 (2003) 535-540.
- [6 ] C. Tendero, C. Tixier, T. Pascal, J. Desmaison, P. Leprince, Atmospheric pressure plasma: A review, Spectrochimica Acta Part B: Atomic Spectroscopy 61/1 (2006) 2-30.
- [7] T. Nakamura, C. Buttapeng, S. Furuya, N. Harada, Surface cleaning of metal wire by atmospheric pressure plasma, Applied Surface Science 256/4 (2009) 1096-1100.
- [8] V. Prysiazhnyi, P. Vasina, N.R. Panyala, J. Havel, M. Cemak, Air DCSBD plasma treatment of A1 surface at atmospheric pressure, Surface & Coatings Technology 206 (2012) 3011-3016.
- [9] S. Tang, N. Lu, S.W. Myung, H.S. Choi, Enhancement of adhesion strength between two AISI 316L stainless steel plates through atmospheric pressure plasma treatment, Surface & Coatings Technology 200/18-19 (2006) 5220-5228.
- [10]C.J. Lee, S.K. Lee, D.C. Ko, D.J. Kim, B.M. Kim, Evaluation of surface and bonding properties of cold rolled steel sheet pretreated by Ar/O-2 atmospheric pressure plasma at room temperature, Journal of Materials Processing Technology 209/10 (2009) 4769-4775.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ac2f76d1-0789-4552-a874-4e29df9e95d7