彭文钢1a,1b,李蒙勇2,廖其龙1a,王 辅1a
(1.西南科技大学 a.材料科学与工程学院;b.环境友好能源材料国家重点实验室,四川 绵阳 621010; 2.雅安沃克林环保科技有限公司,四川 雅安 625000)
DOI:10.13732/j.issn.1008-5548.2022.02.002
收稿日期: 2021-08-30,修回日期:2021-09-10,在线出版时间:2022-02-22。
基金项目:国家自然科学基金项目,编号:51702268。
第一作者简介:彭文钢(1991—),男,硕士研究生,研究方向为陶瓷材料。E-mail:595329283@qq.com。
通信作者简介:廖其龙(1965—),男,教授,博士,博士生导师,研究方向为非金属材料。E-mail:liaoqilong@swust.edu.cn。
摘要: 以球形度较好的氧化铝粉体为主要原料,石墨粉作为造孔剂,加入适量的黏接剂,制备陶瓷膜支撑体;对比研究不同球形度的氧化铝粉体为原料制备陶瓷膜支撑体的工艺及性能。结果表明:以长径比为1.002的氧化铝粉体为主要原料制备支撑体,捏合后形成的泥料不经陈腐可达到较好的成型状态,同时堆积过程中形成的孔隙分布均匀;制得的支撑体性能较好,其中三点抗弯强度为60 MPa、平均孔径为0.285 1 μm、孔隙率为33%、纯水通量为0.034 L/(m2·h·Pa);角形氧化铝粉体以棒状、片状居多,长径比较大,球形度较差,粉体排列时流动性差,难以聚合,且以角形氧化铝粉体为原料制备陶瓷膜支撑体的过程中若不经陈腐,则泥料捏合成型困难,挤出成型后的泥坯易开裂,制得支撑体的整体性能劣于用球形度好的氧化铝粉体为原料制得支撑体的整体性能。
关键词: 氧化铝;球形度;陶瓷膜;支撑体
Abstract:Taking alumina powders with good sphericity as main raw materials and graphite powders as pore-forming agents,and adding appropriate amount of bonding agents,ceramic membrane supports were prepared.The preparation process and performance of ceramic membrane supports taking alumina powder with different sphericities as main raw materials were comparatively studied.The results show that taking alumina powders with aspect ratio of 1.002 as main raw materials for preparing the supports,the mud formed after kneading can achieve a better shape without aging.At the same time,the pores formed during accumulation process are evenly distributed.The prepared supports have good performance,including anti-three-point bending strength of 60 MPa,average pore diameter of 0.285 1 μm,porosity of 33%,and pure water flux of 0.034 L/(m2·h·Pa).Angular alumina powders are mostly in rod and sheet shapes,relatively large aspect ratio,poor sphericity,poor fluidity when powder arranging,and difficult to polymerize.If ceramic membrane supports taking prepared taking angular alumina powders as raw materials in the process without aging,it is difficult to knead the mud,and the mud after extrusion is prone to cracking.The overall performance of the supports is worse than that of the ceramic membrane supports prepared taking alumina powders with good sphericity as main raw materials.
Keywords:alumina;sphericity;ceramic membrane;support
参考文献(References):
[1]王耀明.陶瓷分离膜及其应用[J].陶瓷,1994(4):38-41.
[2]ZHANG W M,GUAN K,LIU D F,et al.Fabrication of super flux and high thermal shock resistance ceramic membrane support[J].Ceramics International,2018,44(17):21221-21228.
[3]李叶,殷喜平,杨正红.颗粒球形度的表征、分级及其应用[J].现代科学仪器,2020(3):61-69.
[4]JANA S,PURKAIT M K,et al.Preparation and characterizations of ceramic microfiltration membrane:effect of inorganic precursors on membrane morphology[J].Separation Science and Technology,2011,46(1):33-45.
[5]吴泽霖,王斌,陈家才,等.高性能氧化铝陶瓷膜支撑体的制备及表征[J].佛山陶瓷,2019,29(1):10-14.
[6]LIANG D H,HUANG J G,ZHANG H,et al.Influencing factors on the performance of tubular ceramic membrane supports prepared by extrusion[J].Ceramics International,2021,47(8):10464-10477.
[7]江瑜华,张小珍,周健儿.新型中空纤维陶瓷膜的制备方法[J].中国陶瓷,2010,46(11):24-27.
[8]HEDFI I,HAMDI N,M A R,et al.Development of a low cost microporous ceramic membrane from kaolin and Alumina,using the lignite as porogenagent[J].Ceramics International,2016,42(4):5089-5093.
[9]FAN X,LIN H,CAO R H.Bending properties of granite beams with various section-sizes in three-point bending tests[J].International Journal of Mining and Geological Engineering,2019,37(1):1-11.
[10]田仕,王为民,张帆,等.致密陶瓷材料密度和气孔率的测试方法[J].理化检验(物理分册),2011,47(8):476-479.
[11]汪永清,侯静鹏,常启兵,等.粉体粒径对氧化铝陶瓷膜孔径的影响及控制[J].人工晶体学报,2015,44(11):3245-3249.
[12]叶大年,韩成,曾荣树,等.大球任意堆积[J].科学通报,1986(12):920-924.
[13]VOGEL T,MA S Y,LIU Y,et al.Impact of alumina content and morphology on the mechanical properties of bulk nanolaminated Al2O3-Al composites[J].Composites Communications,2020,22:100462.
[14]王丽,孙本双,王战宏.粉体粒度测试方法评价[J].中国粉体技术,1998,4(2):39-41.
[15]施阳和,郑华.球形粉体的制备方法及应用[J].中国粉体技术,2015,21(4):71-75.
[16]江清镇,潘晟,徐强.陈腐和真空练泥对提高泥料性能的效果对比[J].陶瓷研究,1988(3):20-22.
[17]李军,刘洪来,胡英.溶剂在高分子膜中的传递模型[J].化工学报,1997,48(6):653-659.
[18]BIRON D,BORTOLUZ J,ZENI M,et al.Characterization of mullite ceramic membranes and their application in the removal escherichia coli[J].Matterials Research,2016,19(3):513-519.
[19]KWAN Y B P,STEPHENSON D J,ALCOCK J R.The dependence of pore size distribution on porosity in hot isostatically pressed porous alumina[J].Journal of porous materials,2001(8):119-127.
[20]周广瑞,同帜,王佳悦,等.烧结温度对黄土基陶瓷膜支撑体性能的影响[J].膜科学与技术,2019,39(4):69-75.
[21]孙传文,王海桥,陈世强,等.平板陶瓷膜的渗透性能实验研究[J].水处理技术,2020,46(2):33-36.
[22]ASIF,MUHAMMAD B,REN B Y,et al.Evaluating the impacts of a high concentration of powdered activated carbon in a ceramic membrane bioreactor:mixed liquor properties,hydraulic performance and fouling mechanism[J].Journal of Membrane Science,2020,616:118561.
[23]徐南平,李卫星,赵宜江,等.面向过程的陶瓷膜材料设计理论与方法Ⅰ:膜性能与微观结构关系模型的建立[J].化工学报,2003(9):1284-1289.
[24]钟璟,徐南平.颗粒粒径和膜孔径对陶瓷膜微滤微米级颗粒悬浮液的影响[J].高校化学工程学报,2000,14(3):230-234.
