Open Access
Issue
E3S Web Conf.
Volume 136, 2019
2019 International Conference on Building Energy Conservation, Thermal Safety and Environmental Pollution Control (ICBTE 2019)
Article Number 06022
Number of page(s) 5
Section Monitoring and Treatment of Water Pollution
DOI https://doi.org/10.1051/e3sconf/201913606022
Published online 10 December 2019
  1. Hojna, A., Hadraba, H., Gabriele, F. D., & Husak, R. Behaviour of pre-stressed T91 and ODS steels ex-posed to liquid lead-bismuth eutectic. Corrosion Science, 131, 264-277(2018). [Google Scholar]
  2. Zhang, J., & Li, N. Review of the studies on funda-mental issues in lbe corrosion ☆. Journal of Nuclear Materials, 373(1), 351-377(2008). [CrossRef] [Google Scholar]
  3. Fazio, C., Sobolev, V. P., Aerts, A., Gavrilov, S., Lambrinou, K., Schuurmans, P., ... & Gosse, S. Handbook on lead-bismuth eutectic alloy and leadproperties, materials compatibility, thermal-hydrau-lics and technologies-2015 edition (No. NEA–7268). Organisation for Economic Co-Operation and Development(2015). [Google Scholar]
  4. Del Giacco, M. Investigation of Fretting Wear of Cladding Materials in Liquid Lead (Vol. 3). KIT Scientific Publishing(2013). [Google Scholar]
  5. Zhou, Y., Zhang, W., Wang, B., & Guo, J. Ultrafine-grained microstructure in a Cu–Zn alloy produced by electropulsing treatment. Journal of materials research, 18(8), 1991-1997(2003). [Google Scholar]
  6. Zhang, W., Zhao, W. S., Li, D. X., & Sui, M. L. Mar-tensitic transformation from α-Ti to β-Ti on rapid heating. Applied physics letters, 84(24), 4872-4874(2004). [Google Scholar]
  7. Bosvieux, C., & Friedel, J. Sur l’electrolyse des alli-ages metalliques. Journal of Physics and Chemistry of Solids, 23(1-2), 123-136(1962). [CrossRef] [Google Scholar]
  8. Ho, P. S., & Kwok, T. Electromigration in metals. Reports on Progress in Physics, 52(3), 301(1989). [CrossRef] [Google Scholar]
  9. Sprecher, A. F., Mannan, S. L., & Conrad, H. Overview no. 49: On the mechanisms for the electroplastic effect in metals. Acta Metallurgica, 34(7), 1145-1162(1986). [CrossRef] [Google Scholar]
  10. Misra, A. K. A novel solidification technique of met-als and alloys: under the influence of applied potential. Metallurgical and Materials Transactions A, 16(7), 1354-1355(1985). [CrossRef] [Google Scholar]
  11. Mizubayashi, H., & Okuda, S. Structural relaxation induced by passing electric current in amorphous Cu 50 Ti 50 at low temperatures. Physical Review B, 40(11), 8057(1989). [Google Scholar]
  12. Lai, Z. H., Conrad, H., Teng, G. Q., & Chao, Y. S. Nanocrystallization of amorphous Fe–Si–B alloys us-ing high current density electropulsing. Materials Sci-ence and Engineering: A, 287(2), 238-247(2000). [CrossRef] [Google Scholar]
  13. Hui, S. O. N. G., & WANG, Z. J. Grain refinement by means of phase transformation and recrystalliza-tion induced by electropulsing. Transactions of Non-ferrous Metals Society of China, 21, s353-s357(2011). [CrossRef] [Google Scholar]
  14. Yang, L. I. U., Lei, W. A. N. G., Liu, H. Y., Zhang, B. J., & Zhao, G. P. Effect of electropulsing treatment on corrosion behavior of nickel base corrosion-re-sistant alloy. Transactions of Nonferrous Metals Soci-ety of China, 21(9), 1970-1975(2011). [CrossRef] [Google Scholar]
  15. Chen, X. H., Lu, J., Lu, L., & Lu, K. Tensile proper-ties of a nanocrystalline 316L austenitic stainless steel. Scripta Materialia, 52(10), 1039-1044 (2005). [Google Scholar]

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