1) ceramic carriers
孔陶瓷
1.
The TS-1 zeolite membrane was successfully obtained on the ceramic carriers by one-step in-situ hydrothermal synthesis.
首次采用一次原位水热晶化法在多孔陶瓷载体表面成功制备出TS-1沸石分子筛膜。
2) porous ceramic
多孔陶瓷
1.
Fabrication of Porous Ceramic With Starch as the Pore-forming Agent;
以淀粉作造孔剂制备多孔陶瓷
2.
Preparation of TiO_2 porous ceramic;
TiO_2多孔陶瓷的制备
3.
Al_2O_3 matrix porous ceramics prepared by SHS;
燃烧合成法制备的Al_2O_3基多孔陶瓷
3) micro-porous ceramics
微孔陶瓷
1.
Methods and techniques for preparation of micro-porous ceramics as filtration media in water treatment are presented and reviewed in this paper wherein micro -pore formation and moulding are pointed to be two key steps for the preparation.
对水处理过程中用作过滤材料的微孔陶瓷制备方法进行了评述,指出成孔技术和成型方法是制备工艺的关键,提出了比较有前途的制备微孔陶瓷的新原料及相应的制备方法。
2.
According to the characteristicsofmicro-porousceramics,the filtration theory of micro-porous ceramics as filtration media in water treatment is discussed in this paper.
本文从微孔陶瓷的结构特性出发,分析了微孔陶瓷作为过滤介质在水处理除杂净化过程中的过滤机理,论述了微孔陶瓷在饮用水净化处理和某些工业废水、生活污水处理中的应用。
4) porous ceramics
多孔陶瓷
1.
Preparation and development of porous ceramics;
多孔陶瓷制备技术的进展
2.
Fabrication of porous ceramics using polymeric sponge dipping method;
有机泡沫浸渍法制备多孔陶瓷
3.
Research on fabrication of warp-knitted space porous ceramics by impregnation process;
由浸渍工艺制备经编间隔结构多孔陶瓷的研究
5) porous ceramic membrane
多孔陶瓷膜
1.
CFD modeling of permeate process in 19-channel porous ceramic membranes;
19通道多孔陶瓷膜渗透过程的CFD模拟
2.
According to the urgent demand of deep treatment in dyeing wastewater,this paper studied the advanced treatment of dyeing wastewater by new type combined porous ceramic membrane reactor,which include the new type moving bed bioreactor and porous ceramic technology.
本文针对印染废水急需深度处理的现状,对新型多孔陶瓷膜组合反应器深度处理印染废水一级出水进行了研究,反应器采用新型移动床生物膜处理加多孔陶瓷膜的组合工艺,为工程上应用提供参考。
6) porous SiC ceramics
SiC多孔陶瓷
1.
The porous SiC ceramics were prepared by vacuum sintering in this investigation,the effect of different sintering aids,Al2O3-Y2O3 and Si,and different pore formers,acrylamide copolymer and Carboxymethyl Cellulose(CMC) on the microstructures and porosity were studied.
采用真空烧结方法制备了SiC多孔陶瓷,研究了不同助烧结剂Al2O3-Y2O3、Si以及不同造孔剂丙烯酰胺聚合物、羧甲基纤维素(CMC)对SiC多孔陶瓷形貌和气孔率的影响。
2.
Properties of the two kinds of porous SiC ceramics using PCS and SR as binder respectively were analyzed and compared.
分别以聚碳硅烷和硅树脂作粘结剂,SiC微粉作骨料,在惰性气氛中1000℃下低温制备出SiC多孔陶瓷,所得样品的气孔率在43%~52%之间,抗断裂强度最高达到了18。
3.
The flexural strength of porous SiC ceramics increased with increasing PCS content and shaping pressure,while decreased with increasing the carbon content.
以聚碳硅烷为粘接剂,SiC粉末为骨料,经模压成型、惰性气氛保护下于1000℃裂解低温制得SiC多孔陶瓷。
补充资料:多孔陶瓷
分子式:
CAS号:
性质:含有大量气孔的陶瓷制品。具有较高的机械强度、良好的化学稳定性和耐温度急变性。以黏土、长石、石英等为原料,并加发泡剂,有时也加入一些可燃烧的有机物,在坯体烧成过程中生成大量气孔。成型采用注浆、热压铸、捣打、等静压、挤管等方法。按气孔形式可分为闭口气孔和贯通性开口气孔两类。孔径范围一般为0.1~300μm,也有在0.1μm以下的(如用作过滤器)。闭口气孔陶瓷多用作空心球、绝热或隔音材料。孔径分布均匀的贯通性开口气孔陶瓷多用作催化剂载体(坯料)、沸腾床气体分布板、固液、固气分离用过滤器,以及制作无机分离膜的支撑体(无机分离膜用溶胶-凝胶法制造,用于制作新型过滤器)等。
CAS号:
性质:含有大量气孔的陶瓷制品。具有较高的机械强度、良好的化学稳定性和耐温度急变性。以黏土、长石、石英等为原料,并加发泡剂,有时也加入一些可燃烧的有机物,在坯体烧成过程中生成大量气孔。成型采用注浆、热压铸、捣打、等静压、挤管等方法。按气孔形式可分为闭口气孔和贯通性开口气孔两类。孔径范围一般为0.1~300μm,也有在0.1μm以下的(如用作过滤器)。闭口气孔陶瓷多用作空心球、绝热或隔音材料。孔径分布均匀的贯通性开口气孔陶瓷多用作催化剂载体(坯料)、沸腾床气体分布板、固液、固气分离用过滤器,以及制作无机分离膜的支撑体(无机分离膜用溶胶-凝胶法制造,用于制作新型过滤器)等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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