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为了研究环氧树脂结合体系对浇注成型 Si3 N4结合 SiC 耐火材料性能的影响,以 SiC 颗粒(粗颗粒2.5~1.43 mm、中颗粒1.43~0.5 mm 和细颗粒0.5~0.2 mm)、SiC 细粉、SiC 微粉和 Si 粉为原料,水溶性环氧树脂、多胺类固化剂、2,4,6-三(二甲氨基甲基)苯酚促进剂为环氧树脂凝胶结合体系,采用浇注成型制备了Si3 N4结合 SiC 试样,研究了促进剂加入量(分别占环氧树脂质量的0、5%、10%、15%)、环氧树脂加入量(外加质量分数分别为1%、1.5%、2.5%和3%)及骨料配比(粗、中、细 SiC 颗粒质量比分别为202030、203020、253015、252520、302020和302515)对试样性能的影响。结果表明,随着体系中促进剂加入量的增多,固化反应速率加快,生坯的脱模强度小幅增大,烘后生坯强度降低;随着体系中环氧树脂加入量的增多,生坯的抗折强度逐渐增大,但烧后试样的体积密度降低,显气孔率增大,常温抗折强度和耐压强度逐渐降低,且烧后试样中主要为氮化硅和碳化硅晶相,不含其他杂质相;随着骨料中 SiC 粗颗粒比例的增多,浆料的流动值增大,当粗、中、细颗粒质量比为302515时,试样的性能最优。综合考虑浇注性能,环氧树脂合适的外加质量分数为1.5%,促进剂合适的加入量为环氧树脂加入质量的5%,骨料中粗、中、细 SiC 颗粒的最佳质量比为302515。

To investigate the influence of epoxy resin bonding systems on properties of gel casting Si3 N4 bonded SiC refractories,Si3 N4 bonded SiC specimens were prepared using SiC particles (coarse parti-cles:2.5 -1.43 mm,middle particles:1.43 -0.5 mm,and fine particles:0.5 -0.2 mm),SiC fines,SiC mi-cropowders and Si powder as starting materials,and water soluble epoxy resin,multi-amine curing agents, and 2,4,6-tris (dimethylaminomethyl)phenol accelerator as the bonding system.The influences of the ac-celerator additions (0,5%,10%,and 15% of the epoxy resin addition),the epoxy resin additions (extra-adding 1%,1.5%,2.5%,and 3% by mass),and the aggregate gradation ratios (coarse middle fine =20 20 30,20 30 20,25 30 15,25 25 20,30 20 20,and 30 25 15,respectively,by mass)on the proper-ties of the specimens were studied.The results show that as the accelerator addition increases,the curing rate enhances and the demolding strength of the green body increases a little,but the dried strength of the green body decreases.As the epoxy resin addition increases,the modulus of rupture of the green body im-proves but after firing the bulk density decreases,apparent porosity increases,cold crushing strength and modulus of rupture decrease,and the main phases in the fired specimens are Si3 N4 and SiC without other impurities.As there are more coarse and middle particles in the aggregates,the flowability increases;the best property can be obtained when the ratio is 30 25 15.Considering the overall properties,the optimal epoxy resin addition is 1.5 mass%,the optimal accelerator addition is 5% of the epoxy resin addition and the optimal SiC particle gradation ratio in the aggregates is 30 25 15.

参考文献

[1] 蔡一非;曾存峰;张新华;吴吉光;姚冰.Si3N4结合SiC高炉风口组合砖的应用和发展[J].炼铁,2014(3):60-62.
[2] 吴吉光,黄志刚,张新华,周继伟,常赪,李杰.干熄炉斜道区耐火材料的现状和发展[C].2014年全国炼铁生产技术会暨炼铁学术年会论文集,2014:288-293.
[3] 吴秋玲;辛英杰.垃圾焚烧炉用耐火材料及发展趋势[J].国外耐火材料,2001(1):12-17.
[4] 李勇;朱晓燕;王佳平;陈俊红;薛文东;孙加林.反应烧结氮化硅-碳化硅复合材料的氮化机理[J].硅酸盐学报,2011(3):447-451.
[5] 董满江;毛小建;张兆泉;刘茜.水溶性环氧树脂为凝胶体系的SiC凝胶浇注成型[J].硅酸盐通报,2008(2):376-380.
[6] 董满江;毛小建;张兆泉;刘茜.水溶性环氧树脂体系的氧化锆凝胶浇注成型[J].硅酸盐学报,2008(7):1000-1003.
[7] 李慧;苏振国;王修慧;杨金龙;黄勇.以水性环氧树脂为凝胶体系的氧化铝空心球浆料的流变性能[J].硅酸盐学报,2014(9):1099-1104.
[8] 赵阳;谢睿;张妍;周科朝;张斗.水溶性环氧树脂的锆钛酸铅压电陶瓷凝胶注模成型[J].中国有色金属学报,2014(3):773-778.
[9] Mao XJ;Shimai SZ;Dong MJ;Wang SW.Gelcasting of alumina using epoxy resin as a gelling agent[J].Journal of the American Ceramic Society,20073(3):986-988.
[10] Xiaojian Mao;Shunzo Shimai;Manjiang Dong.Investigation of New Epoxy Resins for the Gel Casting of Ceramics[J].Journal of the American Ceramic Society,20084(4):1354-1356.
[11] Manjiang Dong;Xiaojian Mao;Zhaoquan Zhang.Gelcasting of SiC using epoxy resin as gel former[J].CERAMICS INTERNATIONAL,20094(4):1363-1366.
[12] Biqin Chen;Dongliang Jiang;Jingxian Zhang.Gel-casting of p-TCP using epoxy resin as a gelling agent[J].Journal of the European Ceramic Society,200815(15):2889-2894.
[13] Rui Xie;Kechao Zhou;Xueping Gan.Effects of Epoxy Resin on Gelcasting Process and Mechanical Properties of Alumina Ceramics[J].Journal of the American Ceramic Society,20134(4):1107-1112.
[14] 曹喜营;王守业;冯海霞;李再耕;王金相;洪彦若.矾土基Al_2O_3-MgO质振动浇注料的流变性能[J].北京科技大学学报,2009(12):1588-1593,1624.
[15] 孙曼灵;郑高锋.胺类环氧固化剂胺值测定方法的探讨[J].热固性树脂,2006(2):30-32,35.
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