前驱体转化法制备碳化硼粉体的研究进展
收稿日期: 2019-08-19
网络出版日期: 2020-02-26
Research progress of boron carbide powder prepared by precursor derived method
Received date: 2019-08-19
Online published: 2020-02-26
陈冠廷 , 李三喜 , 王松 , 李洋 . 前驱体转化法制备碳化硼粉体的研究进展[J]. 无机盐工业, 2020 , 52(2) : 6 -11 . DOI: 10.11962/1006-4990.2019-0141
Boron carbide material has been widely used in various fields because of its excellent physical and chemical prop-erties.At present,the traditional carbothermic reduction method for producing boron carbide powder has problems such as high temperature,low yield and heavy environmental pollution.In contrast,the precursor derived method has a lot of advanta-ges such as low energy consumption,simple process,easy availability of raw materials and small product size.This method had shown great advantages in the preparation of boron carbide powder.The preparation process of boron carbide powder syn-thesized by precursor derived method was introduced in detail.The latest research progress of synthesis of boron carbide pow-der by precursor derived method with different carbon sources was summarized.Moreover,the research direction on the preparation of carbide powder using precursor derived method was prospected.
Key words: boron carbide; precursor derived method; precursor
[1] | Vladislav D, Sara R, Richard A H , et al. Boron carbide:Structure,properties,and stability under stress[J]. J.Am.Ceram.Soc., 2011,94(11):3605-3628. |
[2] | Sharifi E M, Karimzadeh F, Enayati M H . Microstructure,mechani-cal properties and sintering model of B4C nozzle with micro holes by powder injection molding[J]. Powder Technol., 2012,228:334-338. |
[3] | Pilladi T R, Panneerselvam G, Anthonysamy S , et al. Thermal expan-sion of nanocrystalline boron carbide[J]. Ceramics International, 2012,38(5):3723-3728. |
[4] | Suri A K, Subramanian C, Sonber J K , et al. Synjournal and consolidation of boron carbide:A review[J]. Inter.Mater.Rev., 2010,55:4-40. |
[5] | Kobayashi T, Yoshida K, Yano T . Effects of heat-treatment tempe-rature and starting composition on morphology of boron carbide particles synthesized by carbothermal reduction[J]. Ceram.Int., 2013,39(1):597-603. |
[6] | Farzaneh F, Golestanifard F, Sheikhaleslami M S , et al. New route for preparing nanosized boron carbide powder via magnesiothermic reduction using mesoporous carbon[J]. Ceram.Int., 2015,41(10):13658-13662. |
[7] | Henrik P, Carina H, Jens B , et al. Low temperature CVD of thin,amorphous boron-carbon films for neutron detectors[J]. Chem.Va-por Depos., 2012,18(7/8/9):221-224. |
[8] | Chen X W, Dong S M, Kan Y M , et al. Effect of glycerine addition on the synjournal of boron carbide from condensed boric acid-poly-vinyl alcohol precursor[J]. RSC Advance, 2016,6(11):9338-9343. |
[9] | Kakiage M, Tahara N, Yanase I , et al. Low-temperature synjournal of boron carbide powder from condensed boric acid-glycerin product[J]. Mater.Lett., 2011,65(12):1839-1841. |
[10] | Kakiage M, Tominaga Y, Yanase I , et al. Synjournal of boron carbide powder in relation to composition and structural homogeneity of precursor using condensed boric acid-polyol product[J]. Powder Technol., 2012,221:257-263. |
[11] | Kakiage M, Tahara N, Tominaga Y , et al. Effect of molecular struc-ture of polyols with different molecular characteristics on synjournalof boron carbide powder[J]. Key Engineering Mater., 2013,534:61-65. |
[12] | Kakiage M, Tahara N, Yanagidani S , et al. Effect of boron oxide/ carbon arrangement of precursor derived from condensed polymer-boric acid product on low-temperature synjournal of boron carbide powder[J]. J.Ceram.Soc.Jpn., 2011,119(1390):422-425. |
[13] | Konno H, Sudoh A, Aoki Y , et al. Synjournal of C/B4C composites from sugar-boric acid mixed solution[J]. Mol.Cryst.Liq.Cryst., 2002,386(1):15-20. |
[14] | Sudoh A, Konno H, Habazaki H , et al. Synjournal of boron carbide microcrystals from saccharides and boric acid[J]. TANSO, 2007(226):8-12. |
[15] | Maqbool M, Din R, Zahid G H , et al. Effect of saccharides as carbon source on the synjournal and morphology of B4C fine particles from carbothermal synjournal precursors[J]. Mater.Express, 2015,5(5):390-400. |
[16] | Pilladi T R, Ananthansivan K, Anthonysamy S , et al. Synjournal of nanocrystalline boron carbide from boric acid-sucrose gel precursor[J]. J.Mater.Sci., 2012,47:1710-1718. |
[17] | Pilladi T R, Ananthansivan K, Anthonysamy S . Synjournal of boron carbide from boric oxide-sucrose gel precursor[J]. Powder Tech-nol., 2013,246:247-251. |
[18] | Watts J L, Talbot P C, Alarco J A , et al. Morphology control in high yield boron carbide[J]. Ceram.Inter., 2017,43(2):2650-2657. |
[19] | Sinha A, Mahata T, Sharma B P . Carbothermal route for prepara-tion of boron carbide powder from boric acid-citric acid gel precur-sor[J]. J.Nucl.Mater., 2002,301:165-169. |
[20] | Khanra A K . Production of boron carbide powder by carbothermal synjournal of gel material[J]. Bull.Mater.Sci., 2007,30(2):93-96. |
[21] | Hadian A M, Bigdeloo J A . The effect of time,temperature and com-position on boron carbide synjournal by sol-gel method[J]. J.Mater.Eng.Perform., 2008,17:44-49. |
[22] | Corradetti S, Carturan S, Biasetto L , et al. Boron carbide as a target for the SPES project[J]. J.Nucl.Mater., 2013,432:212-221. |
[23] | Colombo P, Mera G, Riedel R , et al. Polymer-derived ceramics:40 years of research and innovation in advanced ceramics[J]. J.Am.Ceram.Soc., 2010,93(7):1805-1837. |
[24] | Zhang X J, Li J, Cao K , et al. Synjournal and characterization of B-C polymer hollow microspheres from a new organodecaborane prece-ramic polymer[J]. RSC Advances, 2015,5:86214-86218. |
[25] | Wang H, Wang J L, Gou Y Z . Progress of advanced boron carbide ceramic materials prepared by precursor derived method[J]. J Inorg Materials, 2017,32(8):785-791. |
[26] | Barros P M, Yoshida I V P, Schiavon M A . Boron-containing poly (vinyl alcohol) as a ceramic precursor[J]. J.Non-Cryst.Solids, 2006,352(32/33/34/35):3444-3450. |
[27] | Mondal S, Banthia A K . Low-temperature synthetic route for boron carbide[J]. Journal of the European Ceramic Society, 2005,25(2/3):287-291. |
[28] | Yanase I, Ogawara R, Kobayashi H . Synjournal of boron carbide po-wder from polyvinyl borate precursor[J]. Mater.Lett., 2009,63(1):91-93. |
[29] | Fathi A, Ehsani N, Rashidzadeh M , et al. Synjournal of boron carbide nano particles using polyvinyl alcohol and boric acid[J]. Ceram.Silika, 2012,56(1):32-35. |
[30] | Hasegawa I, Fujii Y, Takayama T , et al. Phenolic resin boron oxide hybrids as precursors for boron carbide[J]. Mater.Sci.Lett., 1999,18(18):1629-1631. |
[31] | Najafi A, Golestani-Fard F, Rezaie H R , et al. A novel route to obt-ain B4C nano powder via sol-gel method[J]. Ceram Int, 2012,38(5):3583-3589. |
[32] | Najafi A, Golestani-Fard F, Rezaie H R. synjournal and characteriza-tion of B4C nanopowder[J]. Ceram.Int., 2018,44(17):21386-21394. |
[33] | Shawgi N, Li S X, Wang S , et al. Towards a large-scale production of boron carbide nano particles from poly(vinyl alcohol) and boric acid by a solid-state reaction-pyrolysis process(SRPP)[J]. Ceram. Int., 2018,44(1):774-778. |
[34] | Shawgi N, Li S X, Wang S , et al. An Innovative method of synjournal of nanoparticles and rod-like shape boron carbide by a solid-state polymerization(SSP) of poly(vinyl alcohol) and boric acid[J]. Ce-ram.Int., 2018,44(8):9887-9892. |
[35] | Shawgi N, Li S X, Wang S . A novel method of synjournal of high pu-rity nano plated boron carbide powder by a solid-state reaction of poly(vinyl alcohol) and boric acid[J]. Ceram.Int., 2017,43(13):10554-10558. |
[36] | Vijay S K, Krishnaprabhub R, Chandramoulia V , et al. Synjournal of nanocrystalline boron carbide by sucrose precursor method-Opti-mization of process conditions[J]. Ceram.Int., 2018,44(5):9887-9892. |
[37] | Tahara N, Kakiage M, Yanase I , et al. Effect of addition of tartaric acid on synjournal of boron carbide powder from condensed boric acid-glycerin product[J]. J.Alloys Compd., 2013,573:58-64. |
[38] | Din R, Zahid G H, Asghar Z , et al. Ethylene glycol assisted low-temperature synjournal of boron carbide powder from borate citrate precursors[J]. J.Asian Ceram.Soc., 2014,2:268-274. |
[39] | 张云霏, 仲剑初, 王洪志 . 碳化硼微粉的低温合成[J]. 无机盐工业, 2010,43(10):29-32. |
[40] | Shawgi N, Li S X, Wang S , et al. Synjournal of nano particles and fiber-like shape boron carbide powder from ploy(vinyl alcohol) and boric acid[J]. J.Sol-Gel Sci.Technol., 2017,82(2):450-457. |
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