Microstructure and properties of porous ceramics synthesized using Kubuqi desert sand
DOI: 10.54647/materials43168 95 Downloads 161738 Views
Author(s)
Abstract
Desert sand has the characteristics of large reserves, high quartz content, small and uniform particle size, low organic content and so on. High performance porous ceramic materials were prepared by particle stacking from Kubuqi desert sand, and the effects of forming pressure, holding time and sintering temperature on phase transformation, microstructure, sintering properties, mechanical properties and thermal conductivity of ceramics were investigated. The results show that the high temperature melting of feldspar phase in desert sand binds the quartz particles together to form a stable porous structure ranging from several microns to hundreds of microns, and the decomposition of ferric oxide leads to the formation of closed pores. The obtained porous ceramics have excellent sintering properties, which is conducive to high value-added desert applications.
Keywords
Desert sand; Porous ceramics; Sintering; Particle stacking; Phase transformation; Properties
Cite this paper
Ru Fan, Wenbin Wang, Shaohua Wang, Zhi Li, Shuojiang Han, Zhiming Shi,
Microstructure and properties of porous ceramics synthesized using Kubuqi desert sand
, SCIREA Journal of Materials.
Volume 7, Issue 1, February 2022 | PP. 1-20.
10.54647/materials43168
References
[ 1 ] | Y.L. Yang, F.L. Liu, Q.B. Chang, Z.W. Hu, Q.K. Wang and Y.Q. Wang, Ceram., 2, 286-295 (2019). |
[ 2 ] | Y.P. Dong, X.M. Fan, H.J. Wei, Z.X. Hou, M.H. Li, Q. Qu, X.W. Yin, L.F. Cheng and L.T. Zhang, Ceram. Int., 46, 22474-22481 (2020). |
[ 3 ] | Z.R. Fan, S.Y. Zhou, A.L. Xue, M.S. Li, Y. Zhang, Y.J. Zhao and W.H. Xing, Chinese J. Chem. Eng., 29, 417-425 (2021). |
[ 4 ] | Y.L. Feng, S.J. Wang, B. Feng, R. Wang, Y. He and T. Zhang, Sensor. Actuat. A-Physical, 152, 104-109 (2009). |
[ 5 ] | T. Moritz and H.J. Richter, J. Eur. Ceram. Soc., 27, 4595-4601 (2007). |
[ 6 ] | N.A. Shvetsova, I.A. Shvetsov, M.A. Lugovaya and E.I. Petrova, J. Adv. Dielectr., 11, 2160006 (2021). |
[ 7 ] | M. Fuji, Y. Shiroki, R.L. Menchavez, H. Takegami, M.Takahashi, H. Suzuki, S. Izuhara and T. Yokoyama, Powder Technol., 172, 57-62 (2007). |
[ 8 ] | L. Guan, B.B. Fan, C. Liu, H.L. Wang, L. Xing, D.L.Chen and R. Zhang, Ceram. Int., 35, 1905-1908 (2009). |
[ 9 ] | Z.H. Tang, J. Wei, L. Yung, B.W. Ji, H.Y. Ma, C.Q. Qiu, K. Yoon, F. Wan, D.F. Fang, B.S. Hsiao and B. Chu, J. Membrane Sci., 328, 1-5 (2009). |
[ 10 ] | S.C. Yao, L.F. Zhang, Y.M. Zhu, J. Wu, Z.M. Lu and J.D. Lu, Waste Manage., 102, 492-498 (2020). |
[ 11 ] | S.U. Qadir, V. Raja, W.A. Siddiqi, M.N. Alyemeni, L. Wijaya and P. Ahmad, Arab. J. Geosc., 14, 116 (2021). |
[ 12 ] | B. Nzuki, C. Niyonzima, L.Q. Luo, P.F. Zhou and X. Tu, China. J. Miner. Mater. Char. Eng., 7, 81-102 (2019). |
[ 13 ] | A. Mocciaro, M.B. Lombardi and A.N. Scian, Refract. Ind. Ceram., 58, 65-68 (2017). |
[ 14 ] | X.Z. Zhang, R.J. Wang, G.W. Liu, H.C. Shao, K. Zhang, Z.Q. Shi and G.J. Qiao, Mater. Sci. Forum, 814, 574-578 (2015). |
[ 15 ] | X.S. Zhang, L.Y. Xue, F. Yang, Z.H. Shao, H. Zhang, Z.G. Zhao, and K.X. Wang, J. Alloy. Compd., 863, 158763 (2021). |
[ 16 ] | L. Yuan, E.D. Jin, C.Y. Li, Z.L. Liu, C. Tian, B.Y. Ma and J.K. Yu, Ceram. Int., 47, 9017-9023 (2021). |
[ 17 ] | H.L Zhu, S.O. Chen, D. Li. and W.Q. Shao, Phys. Test. Chem. Analysis (Part: A Phys. test.), 42, 289-291 (2006). |
[ 18 ] | V.I. Uvarov, R.D. Kapustin, A.S. Fedotov and A.O. Lirillov, Glass Ceram., 77, 221-225 (2020). |
[ 19 ] | Y.B. Zong, Q.L. Wan and D.Q. Cang, Ceram. Int., 45, 22445-22451 (2019). |
[ 20 ] | S.Z. Salleh, A.A. Kechik, A.H. Yusoff, M.A.A.Taib, M.M. Nor, M. Mohamad, T.G. Tan, A. Ali, M.N. Masri, J.J. Mohamed, S.K. Zakaria, J.G. Boon, F.Budiman and P.T. Teo, J. Clean. Prod., 306, 127264(2021). |
[ 21 ] | D.A. Ivanov, A.I. Sitnikov, G.E. Val'yano, T.I. Borodina and S.D. Shlyapin, Ind. Ceram., 59, 459-465 (2019). |
[ 22 ] | Q.T. Wang, H.Q. Yu, T. Ben, Q. Li, F.Z. Li, H.J. Xu, H.B. Qiao and Q.Y. Du, J. Aust. Ceram. Soc., 56, 91-98 (2019). |
[ 23 ] | Y. Zhang, Y.J. Wu, X.K.Yang, D.H. Li, X.Y. Zhang, X. Dong, X.H. Yao, J.C. Liu and A.R. Guo, J. Eur. Ceram. Soc., 40, 2090-2096 (2020). |
[ 24 ] | J. Bourret, N. Tessier-Doyen, B. Naït-Ali, F. Pennec, A. Alzina, C.S. Peyratout and D.S. Smith, J. Eur. Ceram. Soc., 33, 1487-1495 (2013). |