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Charakterystyka mikrostruktury powłok Ni-Al2O3 natryskanych zimnym gazem

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Warianty tytułu
EN
Microstructure characterization of cold sprayed Ni-Al2O3 coatings
Języki publikacji
PL
Abstrakty
PL
Natryskiwanie zimnym gazem jest najnowocześniejszą metodą natryskiwania cieplnego pozwalającą na uzyskanie właściwości powłok nieosiągalnych dotychczas konwencjonalnymi metodami natryskiwania cieplnego. W artykule przedstawiono proces natryskiwania zimnym gazem oraz możliwości natryskiwania powłok kompozytowych. Pokazano ponadto wyniki badań własnych mikrostruktury i analizy składu fazowego powłoki Ni-Al2O3 otrzymanej przez natrysk zimnym gazem.
EN
Cold spraying is the state-of-the-art of thermal spraying which allows to obtain new unique properties of a coating. These properties are unattainable by conventional thermal spray processes. The paper shows fundamental issues of the cold spray process and possibility of the spraying of composite coatings. Some results of a microstructure and phase composition of cold sprayed Ni-Al2O3 coatings are presented.
Rocznik
Strony
34--37
Opis fizyczny
Bibliogr. 28 poz., il., tab.
Twórcy
autor
  • Instytut Metalurgii i Inżynierii Materiałowej PAN
  • Politechnika Świętokrzyska
Bibliografia
  • [1] F. Sevillano, P. Poza, C. J. Munez, S. Vezzu, S. Rech, A. Trentin, Cold- Sprayed Ni-Al2O3 Coatings for applications in power generation industry, J. Therm. Spray Technol. 22(5) (2012) 772-782.
  • [2] S. Hogmark, S. Jacobson, M. Larsson, Design and evaluation of tribological coatings, Wear 246 (2000) 20-33.
  • [3] L. Chen, L. Wang, Z. Zeng, J. Zhang, Effect of surfactant on the electrodeposition and wear resistance of Ni-Al2O3 composite coatings, Mat Sci Eng A-Struct 434 (2006) 319-325.
  • [4] H. Gul, F. Kilic, S. Aslan, A. Alp, H. Akbulut, Characteristics of electroco-deposited Ni-Al2O3 nano-particle reinforced metal matrix composite (MMC) coatings, Wear 267 (2009) 976-990.
  • [5] A. Góral, M. Nowak, K. Berent, B. Kania, Influence of current density on microstructure and properties of electrodeposited nickel-alumina composite coatings, J Alloy Compd (2014).
  • [6] E.A. Pavlatou, M. Stroumbouli, P. Gyftou, N. Spyrellis, Hardening effect induced by incorporation of SiC particles in nickel electrodeposits, J Appl Electrochem 36 (2006) 385-394.
  • [7] L. Benea, E. Danaila, J-P. Celis, Influence ofelectro-co-deposition parameters on nano-TiO2 inclusion into nickel matrix and properties characterization of nanocomposite coatings obtained, Mat Sci Eng A-Struct 610 (2014)106-115.
  • [8] N.S. Qu, D. Zhu, K.C. Chan, Fabrication of Ni–CeO2 nanocomposite by electrodeposition, Scripta Mater 54 (2006) 1421-1425.
  • [9] H. Y. Lee, S. H. Jung, S. Y. Lee, Y. H. You, K. H. Ko, Correlation between Al2O3 particles and interface of Al-Al2O3 coatings by cold spray, Appl Surf Sci 252 (2005) 1891-1898.
  • [10] H.K. Kang, S.B. Kang, Thermal decomposition of silicon carbide in a plasma-sprayed Cu/SiC composite deposit, Mat Sci Eng A-Struct 428 (2006) 336-345.
  • [11] M. Miguel, J.M. Guilemany, S. Dosta, Effect of the spraying process on the microstructure and tribological properties of bronze–alumina composite coatings, Surf Coat Tech 205 (2010) 2184-2190.
  • [12] H.S. Grewal, H. Singh, A. Agrawal, Microstructural and mechanical characterization of thermal sprayed nickel-alumina composite coatings, Surf Coat Tech 216 (2013) 78-92.
  • [13] D. Zhao, F. Luo, W. Zhou, D. Zhu, Effect of critical plasma spray parameter on complex permittivity and microstructure by plasma spraying Cr/Al2O3 coatings, Appl Surf Sci 264 (2013) 545-551.
  • [14] L. Wang, D. Yan, Y. Dong, J. Zhang, X. Chen, Nanostructured ceramic composite coating prepared by reactive plasma spraying micro-sized Al-Fe2O3 composite powders, Ceramics International 39 (2013) 2437-2442.
  • [15] C.-J. Li, G.-J. Yang, Relationships between feedstock structure, particle parameter, coating deposition, microstructure and properties for thermally sprayed conventional and nanostructured WC-Co, Int. J Refract Met H 39 (2013) 2-17.
  • [16] M. Grujicic, J.R. Saylor, D.E. Beasley, W.S. DeRosset, D. Helfritch, Computational analysis of the interfacial bonding between feedpowder particles and the substrate in the cold-gas dynamic-spray process Appl. Surf. Sci. 219 (2003) 211-227.
  • [17] R.S. Lima, J. Karthikeyan, C.M. Kay, J. Lindemann, C.C. Berndt, Microstructural characteristics of cold-sprayed nanostructured WC–Co coatings, Thin Solid Films 416 (2002) 129-135.
  • [18] T.H.V. Steenkiste, J.R. Smith, R.E. Teets, Aluminum coatings via kinetic spray with relatively large powder particles, Surf. Coat. Tech. 154 (2002) 237-252.
  • [19] T.H.V. Steenkiste, J.R. Smith, R.E. Teets, J.J. Moleski, D.W. Gorkiewicz, R.P. Tison, D.R. Marantz, K.A. Kowalsky, W.L. Riggs II, P.H.Zajchowski, B. Pilsner, R.C. McCune, K.J. Barnett, Kinetic spray coatings, Surf. Coat. Tech. 111 (1999) 62-71.
  • [20] R.C. Dykhuizen, M.F. Smith, D.L. Gilmore, R.A. Neiser, X. Jiang, S. Sampath, Impact of high velocity cold spray particles, J Therm Spray Technol 8 (1999) 559-564.
  • [21] J. Vlcek, L. Gimeno, H. Huber, E. Lugscheider, A systematic approach to material eligibility for the cold-spray process, J Thermal Spray Tech 14 (2005) 125-133.
  • [22] W-Y Li, C. Zhang, H. Liao, J. Li, C. Coddet, Characterizations of cold-sprayed Nickel-Alumina composite coating with relatively large Nickel-coated Alumina powder, Surf Coat Tech 202 (2008) 4855-4860.
  • [23] A. Papyrin, Cold spray technology, Adv. Mater. Process 159 (2001) 49-51.
  • [24] T. Schmidt, F. Gärtner, H. Assadi, H. Kreye, Development of a generalized parameter window for cold spray deposition, Acta Mater 54 (3) (2006) 729-742.
  • [25] W. Li, C. Huang, M. Yua, D. Liuc, Y. Fenga, H. Liao, Investigation of high temperature oxidation behavior and tribological performance on cold sprayed nickel–alumina composite coating, Surf Coat Tech 239 (2014) 95-101.
  • [26] H. Koivuluoto, P. Vuoristo, Effect of Ceramic Particles on Properties of Cold-Sprayed Ni-20Cr+ Al2O3 Coatings, J Therm Spray Technol 18(4) (2009) 555-562.
  • [27] H.X. Hu, S.L. Jiang, Y.S. Tao, T.Y. Xiong, Y.G. Zheng, Cavitation erosion and jet impingement erosion mechanism of cold sprayed Ni-Al2O3 coating, Nucl Eng Des 241 (2011) 4929-4937. PN-EN ISO 3252:2002 - Metalurgia proszków - Słownictwo.
  • [28] PN-EN ISO 3252:2002 - Metalurgia proszków - Słownictwo.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9a45c652-8a93-4701-9aa2-c887444f1583
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