以山西阳泉铝土矿为原料,分别细磨至粒度为0.147~0.075、0.075~0.044和≤0.044 mm的粉体,加结合剂混匀后压制成坯,干燥后在电炉中分别于1550、1580、1600、1650和1700℃保温3 h煅烧。研究了不同粒度矾土矿的烧结情况,并用XRD和SEM对烧后试样的相组成和显微结构进行了研究。结果表明:Al2 O3含量为84%(w)的Ⅰ等铝土矿细磨至0.075~0.044 mm,1600℃煅烧3 h后可达到最佳烧结状态。刚玉晶体发育完整,晶粒大部分呈长柱状,晶粒间结合紧密,杂质均匀分布在晶界的玻璃相中。研磨至0.044 mm以下的矾土,煅烧后晶粒内部形成大量封闭气孔,导致体积密度下降。
Bauxite from Yangquan,Shanxi Province was milled into powders with different particle sizes (0.147-0.075,0.075 -0.044,and ≤0.044 mm),added with binder,mixed well,pressed into green speci-mens and calcined at 1 550,1 580,1 600,1 650,and 1 700 ℃for 3 h in an electric furnace,respectively.The sintering property of bauxite with different particle sizes was studied.The crystalline phases and micro-structures of the fired specimens were characterized by XRD and SEM.The results indicate that the opti-mum sintering of the bauxite can be achieved at the particle sizes of 0.075 -0.044 mm after calcining at 1 600 ℃ for 3 h;the corundum crystals fully develop,and most are long columnar;the grains combine closely and the impurities distribute evenly in the glass phase of the grain boundary;the bauxite with size≤0.044 mm has many pores in the grains after calcining and leads to low bulk density.
参考文献
| [1] | 陈庆明,魏同.我国高铝矾土均化料的技术进步[J].耐火材料,2011(05):376-381. |
| [2] | 张翼,许启明,刘百宽.孝义铝土矿煅烧及碎料的均化烧结利用[J].耐火材料,2005(06):448-451. |
| [3] | 钟香崇.新一代矾土基耐火材料[J].硅酸盐通报,2006(05):92-98. |
| [4] | 杨中正,赵顺波,邢振贤,李志成,张越.高铝矾土和煤矸石合成矾土基莫来石料的研究[J].材料工程,2010(05):51-55. |
| [5] | 谭莹.均质铝矾土煅烧技术的研究[J].耐火与石灰,2011(06):7-9. |
| [6] | 杨中正,叶方保,钟香崇.以矾土碎矿和煤矸石合成莫来石均质料[J].耐火材料,2006(02):81-84,88. |
| [7] | O. Castelein;R. Guinebretiere;J. P. Bonnet .Shape, size and composition of mullite nanocrystals from a rapidly sintered kaolin[J].Journal of the European Ceramic Society,2001(13):2369-2376. |
| [8] | Jarkko L;Mika L;Rosenholm M et al.Evolution of aluminosilicatestructure and mullite crystallization from homogeneous nanopartiu-late sol-gel precursor with organic additives[J].Journal of the European Ceramic Society,2008,28(09):1749-1762. |
| [9] | Lee W;Souza P;Monville J .Mullite formation in clays and clay-de-rived vitreous ceramics[J].Journal of the European Ceramic Society,2008,28(04):465-471. |
| [10] | Ribeiro J;Labrincha A .Properties of sintered mullite and cordieritepressed bodies manufactured using Al-rich anodising sludge[J].CERAMICS INTERNATIONAL,2007,12(04):108-112. |
| [11] | Zhong X C .Outlook on the development of synthetic refractory rawmaterials based on natural resources in China[J].China's Refract,2000,9(01):3-7. |
| [12] | 陈俊红;王跃;李勇 等.致密均化铝矾土的性能及应用[J].稀有金属材料与工程,2011,40(06):170-173. |
| [13] | M.A.Sainz;F.J.Serrano .XRD microstructural analysis of mullites obtained from kaolinite-alumina mixtures[J].Journal of the European Ceramic Society,2000(4):403-412. |
| [14] | Chakraborty AK. .DTA study of preheated kaolinite in the mullite formation region[J].Thermochimica Acta: An International Journal Concerned with the Broader Aspects of Thermochemistry and Its Applications to Chemical Problems,2003(1/2):203-209. |
| [15] | Zhong X C;Li G P .Sintering characteristics of Chinese bauxite[J].CERAMICS INTERNATIONAL,1981,7(02):65-68. |
| [16] | 王金相;钟香崇 .我国D-K型烧结高铝矾土的结晶相和玻璃相的研究[J].硅酸盐学报,1982,10(03):289-297. |
| [17] | 宋仪杰;包卓吾;郎衍庭 .TiO2、Fe2 O3 杂质对高铝耐火材料的影响[J].硅酸盐学报,1987,15(01):50-60. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%