Выпуски МФиНТ »  Том 45, выпуск 1

Some Modern Methods of Improving the Properties of Hypereutectic Al–Si Alloys

A. G. Borisov, T. G. Tzir

Физико-технологический институт металлов и сплавов НАН Украины, бульв. Академика Вернадского, 34/1, 03142 Киев, Украина

Получена: 18.08.2022; окончательный вариант - 04.10.2022. Скачать: PDF

The review reflects the latest achievements in the main areas of influence on hypereutectic silumins, which make it possible to significantly increase the complex of their mechanical properties, both in traditional areas such as modification or casting conditions and in relatively recent energy ones. The complex application of various methods, characteristic of recent times, is noted.

Ключевые слова: hypereutectic Al–Si alloys, modification, ultrasonics, special casting methods, iron-content impact.

URL: https://mfint.imp.kiev.ua/ru/abstract/v45/i01/0095.html

PACS: 62.20.Qp, 62.80.+f, 64.70.D-, 81.05.Bx, 81.10.Fq, 81.30.Fb, 83.60.Np

ЦИТИРОВАННАЯ ЛИТЕРАТУРА
  1. F. Alshmri, H. V. Atkinson, S. V. Hainsworth, C. Haidon, and S. D. A. Lawes, Wear, 313, Iss. 1–2: 106 (2014). Crossref
  2. A. Wang, L. Zhang, and J. Xie, J. Rare Earths, 31, Iss. 5: 522 (2013). Crossref
  3. Z. Cai, C. Zhang, R. Wang, C. Peng, K. Qiu, and Y. Feng, Mater. Design, 87: 996 (2015). Crossref
  4. K. G. Basava Kumar, Adv. Mater. Res., 685: 112 (2013). Crossref
  5. P. Li, V. I. Nikitin, E. G. Kandalova, and K. V. Nikitin, Mater. Sci. Eng. A, 332, Iss. 1–2: 371 (2002). Crossref
  6. Z. Cai, R. Wang, C. Zhang, C. Peng, L. Xie, and L. Wang, J. Mater. Eng. Perform., 24: 1226 (2015). Crossref
  7. H. S. Kang, W. Y. Yoon, K. H. Kim, M. H. Kim, and Y. P. Yoon, Mater. Sci. Eng. A, 404, Iss. 1–2: 117 (2005). Crossref
  8. M. Okayasu, S. Takeuchi, and T. Shiraishi, Int. J. Cast Met. Res., 26, Iss. 2: 105 (2013). Crossref
  9. L. Lasa and J. M. Rodriguez-Ibabe, Mater. Sci. Eng. A, 363, Iss. 1–2: 193 (2003). Crossref
  10. B. K. Prasad, K. Venkateswarlu, O. P. Modi, A. K. Jha, S. Das, R. Dasgupta, and A. H. Yegneswaran, Metall. Mater. Trans. A, 29: 2747 (1998). Crossref
  11. S. Bhattacharya and A. T. Alpas, Wear, 301, Iss. 1–2: 707 (2013). Crossref
  12. T. M. Chandrashekharaiah and S. A. Kori, Tribol. Int., 42, Iss. 1: 59 (2009). Crossref
  13. S. A. Kori and T. M. Chandrashekharaiah, Wear, 263, Iss. 1–6: 745 (2007). Crossref
  14. J. Li, F. S. Hage, X. Liu, Q. Ramasse, and P. Schumacher, Sci. Rep., 6: 25244 (2016). Crossref
  15. G. H. Qi, Adv. Mater. Research, 721: 282 (2013). Crossref
  16. M. Zuo, K. Jiang, and X. Liu, J. Alloys Comp., 503, Iss. 2: L26 (2010). Crossref
  17. B. Ganiger, T. M. Chandrashekharaiah, and T. B. Prasad, 4th International Con-ference on Advances and Management Sciences (Feb. 12–14, 2017) (Barcelona: ICAMS: 2017), p. 1.
  18. A. N. K. Jadoon and R. A. Mufti, Tribol.—Mater. Surf. Interfaces, 4, Iss. 2: 61 (2010). Crossref
  19. C. Chen, Z.-X. Liu, B. Ren, M.-X. Wang, Y.-G. Weng, and Z.-Y. Liu, Trans. Nonferr. Metal. Soc. China, 17, Iss. 2: 301 (2007). Crossref
  20. S. A. Alkahtani, E. M. Elgallad, M. M. Tash, A. M. Samuel, and F. H. Samuel, Materials, 9, Iss. 1: 45 (2016). Crossref
  21. Z. Hu, H. Yan, and Y.-S. Rao, Trans. Nonferr. Metal. Soc. China, 23, Iss. 11: 3228 (2013). Crossref
  22. Z. Qian, X. Liu, D. Zhao, and G. Zhang, Mater. Lett., 62, Iss. 14: 2146 (2008). Crossref
  23. K. Nogita, S. D. McDonald, and A. K. Dahle, Mater. Trans., 45, Iss. 2: 323 (2004). Crossref
  24. C. Gong, H. Tu, C. Wu, J. Wang, and X. Su, Materials, 11, Iss. 3: 456 (2018). Crossref
  25. J. Majhi, S. K. Sahoo, S. C. Patnaik, B. Sarangi, and N. K. Sachan, IOP Conf. Ser.: Mater. Sci. Eng., 338: 012048 (2018). Crossref
  26. M. Acharya, S. Mondel, and A. Mandal, Mater. Sci. Technol., 36: Iss. 5: 623 (2020). Crossref
  27. B. Korojy and H. Fredriksson, Trans. Indian Inst. Met., 62: 361 (2009). Crossref
  28. J. Zeng, C. Zhu, W. Wang, X. Li, and H. Li, Phil. Mag. Lett., 100, Iss. 12: 581 (2020). Crossref
  29. J. Piatkowski, Metalurgija, 3: 511 (2015).
  30. C. L. Xu, H. Y. Wang, F. Qiu, Y. F. Yang, and Q. C. Jiang, Mater. Sci. Eng. A, 417, Iss. 1–2: 275 (2006). Crossref
  31. K. Matsuura, M. Kudoh, H. Kinoshita, and H. Takahashi, Mater. Chem. Phys., 81, Iss. 2–3: 393 (2003). Crossref
  32. T. V. S. Reddy, D. K. Dwivedi, and N. K. Jain, Wear, 266, Iss. 1–2: 1 (2009). Crossref
  33. A. G. Borisov, Protsessy Lit’ya, No. 4: 33 (2013) (in Russian). Crossref
  34. A. S. Alghamdi, M. Ramadan, K. S. Abdel Halim, and N. Fathy, Eng., Techn. Applied Sci. Res., 8, Iss. 1: 2514 (2018). Crossref
  35. Q. Wang, L. Li, R. Zhou, Y. Li, F. Xiao, and Y. Jiang, J. Mater. Res., 34: 2105 (2019). Crossref
  36. Z. Zhang, H-T. Li, I. C. Stone, and Z. Fan, IOP Conf. Ser.: Mater. Sci. Eng., 27: 012042 (2012). Crossref
  37. P. K. Sood, R. Sehgal, and D. K. Dwivedi, Sādhanā, 42: 365 (2017). Crossref
  38. D. Lu, Y. Jiang, G. Guan, R. Zhou, Z. Li, and R. Zhou, J. Mater. Process. Technol., 189, Iss. 1–3: 13 (2007). Crossref
  39. H. K. Feng, S. R. Yu, Y. L. Li, and L. Y. Gong, J. Mater. Process. Technol., 208, Iss. 1–3: 330 (2008). Crossref
  40. L. Zhang, D. G. Eskin, A. Miroux, and L. Katgerman, Light Metals 2012 (Ed. C. E. Suarez) (Springer Cham: 2012), p. 999. Crossref
  41. R. Haghayeghi, E. J. Zoqui, and G. Timelli, J. Mater. Process. Technol., 252: 294 (2018). Crossref
  42. R. Haghayeghi, L. C. De Paula, and E. J. Zoqui, J. Mater. Eng. Perform., 26: 1900 (2017). Crossref
  43. Y. H. Cho, J. M. Lee, W. H. Yoon, and J. G. Jung, Mater. Sci. Forum, 794–796: 89 (2014). Crossref
  44. K. Oda, S. Komarov, and Y. Ishiwata, J. Japan Institute of Light Metals, 61, Iss. 4: 149 (2011.). Crossref
  45. B. Gao, Liang Hu, Shi-wei Li, Yi Hao, Yu-dong Zhang, Gan-feng Tu, Thierry Grosdidier, Appl. Surf. Sci., 346: 147 (2015). Crossref
  46. J. C. Walker, J. Murray, S. Narania, and A. T. Clare, Tribol. Lett., 45: 49 (2012). Crossref
  47. J. Abboud and J. Mazumder, Sci. Rep., 10: 12090 (2020). https://doi.org/10.1038/s41598-020-69072-1 Crossref
  48. L. Z. Zhao, M. J. Zhao, L. J. Song, and J. Mazumder, Mater. Des., 56: 542 (2014). Crossref
  49. N. Kang, P. Coddet, H. Liao, T. Baur, and C. Coddet, Appl. Surf. Sci., 378: 142 (2016). Crossref
  50. N. Kang, P. Coddet, C. Chen, Y. Wang, H. Liao, and C. Coddet, Mater. Des., 99: 120 (2016). Crossref
  51. C. Yin, Z. Lu, X. Wei, B. Yan, and P. Yan, Metals, 11, Iss. 4: 528 (2021). Crossref
  52. https://www.gvsu.edu/cms4/asset/777A03CA-E5D1-90B3-8FF97B7EA6E9ECB3/engineering_thesis_1.pdf Refinement of the Cast Microstructure of Hypereutectic Aluminum-Silicon Alloys with an Applied Electric Potential.
  53. C. Y. Ban, Y. Han, Q. X. Ba, and J. Z. Cui, Mater. Sci. Forum, 546–549: 723 (2007). Crossref
  54. Z. F. Zhao, J. Z. Wang, J. G. Qi, S. Dai, and D. J. Zhang, Adv. Mater. Research, 299–300: 566 (2011). Crossref
  55. K. Raju, A. P. Harsha, and S. N. Ojha, Trans. Indian Institute of Metals, 64: 1 (2011). Crossref
  56. E. Oveisi and F. Akhlaghi, Adv. Mater. Research, 47–50: 865 (2008). Crossref
  57. F. F. Wu, S. T. Li, G. A. Zhang, and F. Jiang, Bull. Mater. Sci., 37: 1153 (2014). Crossref
  58. S. Luo and X. Wei, Int. J. Mater. Research, 107, Iss. 5: 422 (2016). Crossref
  59. L. D. Wang, D. Y. Zhu, Z. L. Wei, Y. L. Chen, L. G. Huang, Q. J. Li, and Y. S. Wang, Adv. Mater. Research, 146–147: 79 (2010). Crossref

Лицензия Creative Commons
Эта статья доступна по Лицензии Creative Commons “Attribution-NoDerivatives” («атрибуция — без производных статей») 4.0 Всемирная
© 2000–2023 «Институт металлофизики им. Г. В. Курдюмова НАН Украины»