“The effect of reversing current on the properties of copper and electrolytic copper powder II. The apparent density and flowability of powders”




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1. Popov K.I., Pavlović M.G., Pavlović Lj.J., Maksimović V.M., Ivanović E.R., “The effect of reversing current on the properties of copper and electrolytic copper powder II. The apparent density and flowability of powders”, Materials Science Forum, 453-454, (2004), p.399-404.

Citati:

  1. Pavlović, M.G., Popov, K.I., Krstić, S.B., Pavlović, Lj.J., Ivanović, E.R. "Flowability of electrolytic copper powder", Materials Science Forum 494, 2005, pp. 247-252


2. Popov K.I., Krstić S.B., Pavlović M.G., Pavlović L.J., Maksimović V.M., "The effect of the particle shape and structure on the flowability of electrolytic copper powder. IV. the internal structure of the powder particles", Journal of the Serbian Chemical Society, 69 (10), 2004, p.817-825.

Citati:

  1. Popov, K.I., Nikolić, N.D., Krstić, S.B., Pavlović, M.G., "Physical modeling of representative particles of electrodeposited copper powders", Journal of the Serbian Chemical Society 71 (4), 2006, pp. 397-400


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  1. M.T.Jovanović, B.Dimčić, I.Bobić, S.Zec, V.Maksimović, "Microstructure and mechanical properties of precision cast TiAl turbocharger wheel" – Jour. Mat. Proc. Tech., 167 (2005) 14-21

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    Zhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals 18 (4), 2008, pp. 643-650

  5. Gomes, F., Barbosa, J., Ribeiro, C.S., "Induction melting of γ-TiAl in CaO crucibles", Intermetallics,Volume 16, Issue 11-12, November 2008, Pages 1292-1297

  6. Dymek, S., Wróbel, M., Witczak, Z., Blicharski, M., "Microstructure and properties of Ti-45Al-5V intermetallic alloy", Materials Science- Poland 27 (3) (2009), pp. 865-873

  7. Gao, Y. Yang, L., Zheng, L. Zhang, H., "Influence of boron and carbon on the shrinkage defects of TiAl alloys", 2010, Beijing Hangkong Hangtian Daxue Xuebao/ Journal of Beijang University of Aeronautics and Astronautics 36 (19), pp. 1217-1220.

  8. Dymek, S., Wróbel, M., Witczak, Z., Blicharski, M., "Mechanical alloying and high pressure processing of a TiAl-V intermetallic alloy", Journal of Microscopy (2010) 237 (3), pp. 481-486

  9. Zhang, Y., Huang, C., Wu, F., Liu, L., "Microstructure and mechanical properties of laser direct deposited γ-TiAl alloy", Zhongguo Jiguang/Chinese Journal of Lasers, Volume 37, Issue 10, October 2010, Pages 2684-2688 

  10. Chen, Y., Chen, Y., Xiao, S., Tian, J., Xu, L., "Preparation of ceramic moulds with zirconia coatings for the investment casting of TiAl alloys", Advanced Materials Research, Volume 146-147, 2011, Pages 499-505

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  12. Gomes, F., Puga, H., Barbosa, J.Ribeiro, C.S., "Effect of melting pressure and superheating on chemical composition and contamination of yttria-coated ceramic crucible induction melted titanium alloys", Journal of Materials Science, Volume 46, Issue 14, July 2011, Pages 4922-4936 

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  14. Ye, X., Liu, W., Zhang, L., "The effect of W, Si on antioxidation of TiAl based alloy", 2011 International Conference on Remote Sensing, Environment and Transportation Engineering, RSETE 2011 - Proceedings 2011, Article number 5965839, Pages 6472-6475

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  20. Toshimitsu Tetsui, Toshiharu Kobayashi, Tsuyoshi Ueno b, Hiroshi Harada, "Consideration of the influence of contamination from oxide crucibles on TiAl cast material, and the possibility of achieving low-purity TiAl precision cast turbine wheels", Intermetallics 31 (2012) 274-281


5. V.D.Jović, V.Maksimović, M.G.Pavlović and K.I.Popov, "Morphology, internal structure and growth mechanisam of electrodeposited Ni and Co powders", Joural of Solid State Electrochemistry., (2006) 10: 373-379

Citati:

    1. V.D.Jović, B.M.Jović, M.G.Pavlović, «Electrodeposition of Ni, Co and Ni-Co alloy powders», Electrochimica Acta, 51 (2006) 5468-5477.

    2. R.D.Noce, N.Barelli, R.F.C.Marques, P.T.A.Sumodjo, A.V.Benedetti, «The influence of residual stress and crystallite size on the magnetic properties of electrodeposited nanocrystalline Pd-Co alloys» Surface & Coating Technology, 202 (2007) 107-113.

    3. N.D.Nikolić, K.I.Popov, Lj.J.Pavlović, M.G.Pavlović, «Phenomenology of a formation of honeycomb structrure during copper electrodeposition», Journal of Solid State Electrochemistry., 11 (2007) 667-675.

    4. Taparti, S.S.V., Ebrahimi, F., "Electrodeposition of Al-Mg alloy powders" 
      Journal of the Electrochemical Society 155 (5), 2008, pp. D363-D368

    5. Vázquez-Gómez, L., Cattarin, S., Guerriero, P., Musiani, M., "Influence of deposition current density on the composition and properties of electrodeposited Ni + RuO2 and Ni + IrO2 composites", 2009 Journal of Electroanalytical Chemistry 634 (1), pp. 42-48

    6. U.Lačnjevac, B.M.Jović, V.D.Jović, "Morphology and composition of the Fe-Ni powders electrodeposited from citrate containing electrolyes", Electrochemica Acta, 55 (2009) 535-543.

    7. Tatiparti, S.S.V., Ebrahimi, F., "The formation of morphologies and microstructures in electrodeposited nanocrystalline Al-Mg alloy powders", Journal of the Electrochemical Society, Volume 157, Issue 10, 2010, Pages E167-E171

    8. Vázquez-Gómez, L., Verlato, E., Cattarin, S., Comisso, N., Guerriero, P., Musiani, M., "Electrodeposition of porous Co layers and their conversion to electrocatalysts for methanol oxidation by spontaneous deposition of Pd", (2011) Electrochimica Acta 56 (5), pp. 2237-2245

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    10. Tatiparti, S.S.V., Ebrahimi, F., "Internal structure of the electrodeposited nanocrystalline Al-Mg alloy dendrites", Materials Letters, Volume 65, Issue 15-16, August 2011, Pages 2413-2415
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