为解决以粉煤灰为原料制备轻质隔热砖体积密度过大的问题,利用叶蜡石、粉煤灰、苏州土为主要原料,锯末为造孔剂,通过控制叶蜡石加入量(质量分数分别为20%、30%和40%)和烧成温度(1250、1300、1350和1400℃)合成了体积密度<0.89 g·cm -3的轻质隔热耐火材料,并利用 XRD、SEM、导热仪等对试样进行表征。结果表明:当叶蜡石加入量为30%(w),烧成温度为1400℃时,制备的隔热砖试样的线收缩率为6.6%,显气孔率为57%,体积密度为0.75 g·cm -3,耐压强度为2.7 MPa,在350℃时热导率为0.152~0.216 W·m -1·K -1。由此说明,通过利用叶蜡石的高温下分解生成莫来石和非晶石英相所产生的体积膨胀效应抵消坯体高温下产生的收缩,结合废弃物粉煤灰以及黏土可制备轻质隔热耐火材料。
To solve the problem of over -high density of lightweight insulation refractory bricks prepared with fly ash,new lightweight insulation refractory materials with density <0.89 g·cm -3 were synthesized using pyrophyllite,fly ash,and Suzhou clay as the main starting materials and saw dust as the pore forming sub-stance,and controlling the addition of the pyrophyllite (20%,30%,and 40% by mass)and the treating tem-perature (1 250,1 300,1 350,and 1 400 ℃).The synthesized materials were characterized by the XRD,SEM and the thermal conductivity measuring instrument.The results show at pyrophyllite addition of 30% and treat temperature of 1 400 ℃,the material can achieve linear shrinkage of 6.6%,apparent porosity of 57%,bulk density of 0.75 g·cm -3 ,compressive strength of 2.7 MPa,and thermal conductivity at 350 ℃ of 0.152 -0.216 W·(m·K)-1 .This indicates that the pyrophyllite decomposition at high temperatures forms mullite and amor-phous quartz introducing volume expansion,which counteracts some shrinkage at high temperatures.So it is feasible to use pyrophyllite,fly ash waste and clay to prepare lightweight insulation refractory materials.
参考文献
| [1] | 张磊;杨久俊;王雪平;王文娟;杨付增.利用粉煤灰微珠制备β-SiAlON空心球[J].耐火材料,2008(2):105-108,112. |
| [2] | 宋绍雷;甄强;王方方;王亚丽.低品位煤矸石制备多孔莫来石研究[J].耐火材料,2014(1):18-21. |
| [3] | 杨涛;侯新梅;周国治.利用煤矸石制备堇青石多孔陶瓷[J].耐火材料,2014(3):197-200. |
| [4] | 崔崇;刘少明;程水明.粉煤灰轻质隔热耐火砖的研制[J].粉煤灰综合利用,2000(4):61-63. |
| [5] | 刘少明 .粉煤灰在隔热耐火材料工业中的应用和研究[D].华中科技大学,2003. |
| [6] | 魏存弟;赵峰;马鸿文;李金洪;杨殿范;三国彰.叶蜡石加热相变及其演化特征[J].吉林大学学报(地球科学版),2005(2):150-154. |
| [7] | 魏存弟;马鸿文;杨永强;杨殿范;三国彰.叶蜡石高温相转变的实验研究[J].地学前缘,2005(1):214-219. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%