JCPR

Articles

Quasi-nanocrystalline ZrB₂ powder synthesized by salt-assisted combustion and its formation mechanism
Faqi Zhan^a,*, Ru Bai^a, Xiao Liu^a, Ke Xu^a, Hua Zhang^a, Min Zhu^a, Yuehong Zheng^a, Shipeng Xu^b, Jie Sheng^a and Peiqing La^a,*
^aState Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals, Lanzhou University of Technology, Lanzhou 730050, China
^bGansu Key Laboratory of Solar Power System Engineering, Jiuquan Vocational and Technical College, Jiuquan 735000, China
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. F.Q. Zhan, H. Zhang, K. Xv, M. Zhu, Y.H. Zheng, and P.Q. La, J. Ceram. Process. Res. 23[5] (2022) 694-708.
2. Y. Zhang and H. Sun, J. Ceram. Process. Res. 19[4] (2018) 355-359.
3. J.H. Kimb, J.S. Choia, J.U.K. Hura, S.C. Choia, and G.S. Ana, J. Ceram. Process. Res. 21[3] (2020) 351-357.
4. G.M. Yuan, X.H. Zuo, Z.J. Dong, Z.W. Cui, and X.K. Li, J. Ceram. Process. Res. 22[1] (2021) 31-38.
5. E.P. Aa, J. GRa, V. Sb, and A.B.J. Sc, J. Ceram. Process. Res. 21[5] (2020) 524-532.
6. M.H. Bagherabadi, R. Naghizadeh, H.R. Rezaie, and M.F. Vostakola, J. Ceram. Process. Res. 19[3] (2018) 218-223.
7. S. Gadakary, M.J. Davidson, R. Veerababu, and A.K. Khanra, J. Min. Metall. B. 52[1] (2016) 69-76.
8. M. Li and J. Zhang, J. Solid. State. Chem. 289 (2020) 121529-121532.
9. T. Gui, X.M. Wang, L. Yang, Y.Y Liu, X. Bai, L.J. Wang, and B. Song, Rare Metals. 37[12] (2018) 1076-1081.
10. H. Jin, S.H. Meng, C.H. Xu, J.H. Niu, and W.H. Xie, Ceram. Int. 42[14] (2016) 16354-16358.
11. X. Liu, C. Wei, L. Feng, J. Niu, and Z. Yang, Ceram. Int. 43[8] (2017) 6612-6617.
12. A.M. Stolin, P.M. Bazhin, A.S. Konstantinov, A.P. Chizhikov, and E.V. Kostitsyna, Ceram. Int. 44[12] (2018) 13815-13819.
13. R.Z. Wang, D.Y. Li, A. Xing, B. Jia, and W.G. Li, Compos. Struct. 162 (2017) 39-46.
14. L. Bai, Y. Ouyang, and F. Yuan, Nanomaterials. 11[9] (2021) 2345-2362.
15. V. Zamora, A.L. Ortiz, F. Guiberteau, and M. Nygren, J. Eur. Ceram. Soc. 32[10] (2012) 2529-2536.
16. M. Rahmani-Azad, A. Najafi, N. Rahmani-Azad, and G. Khalaj, J. Sol-Gel. Sci. and Techn. 103[1] (2022) 87-96.
17. B.Y. Yang, J.P. Li, B. Zhao, Y.Z. Hu, and T.Y. Wang, Powder Technol. 256 (2014) 522-528.
18. J.H. Liu, S. Du, and F.L. Li, J. Wuhan. Univ. Technol., 33 (2018) 1062-1069.
19. B.L. Liu, C.Q. Li, and Y.N. Wang, Eur. Phys. J-Spec. Topics. (2022) 1-8.
20. J.S. Han, G.S. An, and S.C. Choi, Mater. Today. Commun. 33 (2022) 104646-104651.
21. C.Q. Liu, X.J. Chang, Y.T. Wu, X. Li, and Y.L. Xue, Ceram. Int. 46[6] (2020) 7099-7108.
22. S. Cordova and E. Shafirovich, J. Mater. Sci. 53[19] (2018) 13600-13616.
23. C.L. Yeh and Y.H. Wang, Ceram. Int. 47[5] (2021) 11202-11208.
24. J. Ma, S. Cao, T. Li, Q. Chen, and D. Zhang, Mater. Sci. Eng. B-Adv. 261 (2020) 114698-114701.
25. P.Q. La, Y.J. Ou, S.B. Han, X.F. Lu, and Y.P. Wei, J. Mater. Eng. Perform. 43[7] (2015) 14-20.
26. W.W. Wu, G.J. Zhang, and Y. Sakka, J. Asian. Ceram. Soc. 1[3] (2013) 304-307.
27. L. Yuan, C. Wang, M. Bi, S.D. Ma, and X.L. Weng, Adv. Appl. Ceram. 118[7] (2019) 395-402.
28. G.S. An, J.S. Han, J.U. Hur, and S.C. Choi, Ceram. Int. 43[8] (2017) 5896-5900.
29. H. Moayyeri, R.M. Aghdam, Ghelich, and F. Golestani-fard, Adv. Appl. Ceram. 117[3] (2018) 189-195.
30. M. Baris, T. Simsek, T. Simsek, S. Ozcan, and B. Kalkan, Adv. Powder. Technol. 29[10] (2018) 2440-2446.
31. Y. Wang, Y.D. Wu, K.H. Wu, S.Q. Jiao, K.C. Chou, and G.H. Zhang, Int. J. Min. Met. Mater. 26[7] (2019) 831-838.
32. M.B. Lee, J. Ceram. Process. Res. 19[2] (2018) 150-153.
33. A. Masoudian, M. Karbasi, F. SharifianJazi, and A. Saidi, J. Ceram. Process. Res. 14[4] (2013) 486-491.
34. X. Zheng, Q. Wang, X. Li, C. Zheng, and C. Shen, J. Ceram. Process. Res. 24[5] (2023) 874-883.
35. J.H. Lee, J.C. Park, B.S. Park, and H.K. Park, J. Ceram. Process. Res. 24[2] (2023) 216-221.
36. C. Kaemkit, S. Niyomwas, and T. Chanadee, J. Ceram. Process. Res. 21[4] (2020) 460-464.
37. V. Balouchi, F.S. Jazi, and A. Saidi, J. Ceram. Process. Res. 16[5] (2015) 605-608.
38. I. Barin, O. Knacke, and O. Kubaschewski, J. Chem. Thermodyn. 2013.
39. K.R. Kumar, K.K. Dama, and V.V. Satyanarayana, J. Ceram. Process. Res. 24[3] (2023) 439-445.
40. N. Ravikumar, R. Vijayan, and R. Viswanathan, J. Ceram. Process. Res. 24[1] (2023) 142-152.
41. B. Akgün, H.E. Çamurlu, Y. Topkaya, and N. Sevinç, Int. J. Refract. Met. H. 29[5] (2011) 601-607.
42. P.G. Ovcharenko, T.M. Makhneva, A.Y. Leshchev, V.V. Tarasov, and N.A. Balobanov, Met. Sci. Heat Treat 63[11] (2022) 629-633.
43. M. Sharifitabar, J. Vahdati khaki, and M. Haddad Sabzevar, Int. J. Refract. Met. H. 47 (2014) 93-101.
44. C. Koop-Santa, A. Sanchez-Martinez, E.R. López-Mena, J.L.A. Ponce-Ruiz, and E. Orozco-Guareño, Ceram. Int. 47[23] (2021) 33315-33321.
45. S. Zhang and Y. Yan, Case. Stud. Therm. Eng. 25 (2021) 100973-100984.
46. E.A. A.S¸ . Demirkıran, Surf. Coat. Tech. 116-119 (1999) 292-295.
47. A.L. Ortiz, V. Zamora, and F. Rodríguez-Rojas, Ceram. Int. 38[4] (2012) 2857-2863.
48. H.X. Liu, W.H. Song, Q. Xu, W. Ma, and Y. Bai, Int. J. Electrochem. Sci. 15[7] (2020) 6238-6248.
49. Q. Yan, Q. Fan, C. Liu, and Z. Jing, Thermochim. Acta 690 (2020) 178689-178706.
50. M. Thompson, W.G. Fahrenholtz, and G. Hilmas, J. Am. Ceram. Soc. 94[2] (2010) 429-435.
51. J.-H. Yuan, Q.-Y. Liu, Y. You, L.-Y. Zeng, M.-W. Bai, L.R. Blackburn, W.-M. Guo, and H.-T. Lin, Ceram. Int. 47[11] (2021) 15843-15848.
52. J. Miller, P. Mulligan, and C.E. Johnson, Powder Technol 375 (2020) 28-32.
53. C. Zhibo, Z. Xiaotong, L. Mingliang, W. Hailong, and L. Qiang, Ceram. Int. 45[11] (2019) 13726-13731.
54. M. Velashjerdi, M. Soleymani, H. Sarpoolaky, and A. Mirhabibi, Ceram. Int. 46[18] (2020) 28639-28651.
55. Y. Wang, Y. Li, X.-H. Yang, and G.-H. Zhang, J. Nanopart. Res. 24[12] (2022) 1-13.
56. M. Li, C. Ke, and J. Zhang, J. Alloy. Compd. 834 (2020) 155062-155067.
57. H. Shen, X. Li, C. Hu, Z. Wang, X. Hu, Y. Li, and J. Yan, Surf. Interfaces 25 (2021) 101162-101167.
58. Z.-B. Li, Y. Wang, H. Zhang, B. Chen, G.-H. Zhang, and K.-C. Chou, Mat. Sci. Eng. A-Struct. 825 (2021) 141870.
59. Z. Chen, T.S. Suzuki, and H. Wang, Ceram. Int. 49[17] (2023) 28030-28035.
60. J.-H. Yuan, Q.-Y. Liu, Y. You, L.-Y. Zeng, M.-W. Bai, L.R. Blackburn, W.-M. Guo, and H.-T. Lin, Ceram. Int. 47[11] (2021) 15843-15848.
61. F. Li, C. Tan, J. Liu, J. Wang, and Q. Jia, Ceram. Int. 45[7] (2019) 9611-9617.
62. L. Zhou, Q. Fu, D. Hu, J. Zhang, and Y. Wei, Corros. Sci. 183 (2021) 109331-109340.
63. D. Ding, B. Bai, G. Xiao, J. Luo, and X. Chong, Ceram. Int. 47[13] (2021) 18708-18719.
64. X. Li, S. Wang, D. Nie, K. Liu, S. Yan, and P. Xing, Diam. Relat. Mater. 97 (2019) 107458-107463.
65. X. Yi, Q. Li, S. Suzuki, S. Zhang, T. Nomura, and T. Akiyama, Ceram. Int. 45[8] (2019) 10021-10027.
66. S. Song, J. Sun, J. Zhou, C. Guan, and Z. Hu, CrystEngComm. 23[3] (2021) 671-677.

This Article

2024; 25(4): 490-498

Published on Aug 31, 2024
10.36410/jcpr.2024.25.4.490
Received on Oct 8, 2023
Revised on Dec 14, 2023
Accepted on Jan 3, 2024

Services

References
Pdf

Shared

Correspondence to

Faqi Zhan, and Peiqing La
State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals, Lanzhou University of Technology, Lanzhou 730050, China
Tel : +86 15209310025 Fax: +86 15209310025
E-mail: zhanfaqi@lut.edu.cn (Faqi Zhan), pqla@lut.edu.cn (