1) monolithically support
整体支撑
2) self-support monolithic MCM-22 zeolite
自支撑整体式MCM-22沸石
1.
MCM-22 zeolite, self-support monolithic MCM-22 zeolite have been synthesized by vapor-phase transport method(VPT) and MCM-22/metal support monolithic zeolite has been synthesized by hydrothermal method(HTS) in this study.
本文采用气相转移法(VPT)合成了MCM-22沸石、自支撑整体式MCM-22沸石,水热原位晶化法制备了MCM-22/金属基整体式沸石。
3) converter body support
炉体支撑
4) support
[英][sə'pɔ:t] [美][sə'pɔrt]
支撑体
1.
Effect of support pore size on integrity of Al_2O_3 micro-filtration membranes;
支撑体孔径大小对Al_2O_3微滤膜完整性的影响
2.
Reasearch on a New Type of Anodic Alumina Membrane Supported by Aluminum;
以铝为支撑体的新型阳极氧化铝膜的研究
3.
Study on resistance to erosion of cordierite and alumina supports
堇青石和氧化铝支撑体的耐腐蚀研究
5) support system
支撑体系
1.
Reliability calculation for deep foundation pit support system;
深基坑支撑体系可靠度计算研究
2.
The concept and framework of constructing a support system of territorial science and technology of agriculture;
区域性农业科技支撑体系建设思路与框架
3.
The Study of Support System on Heilongjiang Medium and Small-Sized Enterprises to Develop Circular Economy;
黑龙江省中小企业发展循环经济支撑体系研究
6) supporter
[英][sə'pɔ:tə(r)] [美][sə'pɔrtɚ]
支撑体
1.
On technical consideration of carbon composite, it is required that the porous ceramic supporter shoul be of sufficient strength, high porosity and the appropriate thermal deformation.
炭复合膜对多孔陶瓷支撑体的技术要求,是具有足够的强度,较高的孔隙率及适宜的热膨胀系数。
2.
Silicon carbide (SiC) powders and a mixture of kaoline,feldspar and silica were adopted as the starting materials for the fabrication of SiC porous ceramic used for high temperature filtration supporter.
通过以平均粒径300μm的SiC为骨架材料,特定配比的高岭土、长石和二氧化硅的混合物为粘结剂,制备了可用于高温过滤膜管支撑体的SiC基多孔陶瓷。
补充资料:多孔陶瓷支撑体膜
分子式:
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条