1) wet structure
湿心结构
2) Humidity inversion structure
逆湿结构
3) Temperature and moisture structure
温湿结构
4) wet coating structure
湿涂料结构
1.
The concepts of ‘wet coating structure’and ‘coating immobilization point solids’ have been adopted to explain the influences of cobinder on coating water retention,coating rheology and dry coating structure in this paper.Meanwhile,the effect of some CMC,synthetic thickeners and starch on coating water retention and coating rheology have been discussed
用“湿涂料结构”和“涂料不动点固含量”的概念论述了辅助胶粘剂对涂料的保水性、流变性、干涂料结构的影响。
5) Hollow structure
空心结构
1.
The results show that the size of molten titanium particles is smaller than that of HA particles, which is mainly caused by the formation of hollow structure due to aggregation of gaseous P2O5 and H2O within molten HA particles.
结果表明,经等离子熔融喷射入水后,钛粒子的尺寸小于HA粒子,主要原因之一是HA内形成了空心结构。
2.
Fe3O4 microspheres with hollow structure were prepared by the glycol solvothermal method using FeCl3-6H2O and NH4Ac as reactants.
以FeCl3-6H2O和NH4Ac为反应物,乙二醇为溶剂热介质,制备了Fe3O4空心结构微球。
3.
In this dissertation, valuable explorations have been carded out onthe synthesis of highly active TiO_2 photocatalysts, the immobilization of TiO_2nanoparticles, the facile preparation of one-dimensional TiO_2 hollow structures andNa-free anatase TiO_2 films with highly photocatalytic activity.
本论文针对TiO_2在实际应用中存在的各种问题,重点在高活性纳米TiO_2光催化剂的制备、纳米TiO_2粒子光催化剂的固载、一维TiO_2空心结构和高活性无钠TiO_2薄膜的简易合成等方面进行了有益的探索,其主要内容如下: 第二章,为了制备高活性纳米TiO_2光催化剂,发展了大比表面积锐钛矿TiO_2纳米光催化剂的制备新技术。
6) eccentric structure
偏心结构
1.
Semi-active control of eccentric structure under multi-dimensional earthquake using MR damper;
多维地震作用下偏心结构的磁流变阻尼器半主动控制
2.
Earthquake response and control analysis of an eccentric structure with dampers
某周期比超限偏心结构地震反应控制分析
3.
It is an irregular and eccentric structure and brings the most difficult hoisting problems to the coal gasification facility.
煤气化装置的关键设备合成气冷却器、气化炉顶部连接的传导段和气体返向室组合体的质量为300t,形似字母h,为不规则、偏心结构,是煤气化装置中吊装难度最大的设备。
补充资料:湿基湿含量
分子式:
CAS号:
性质:为了表示湿物料的含湿(水)量,常以单位质量湿物料为基准表示所含湿分(水分)的质量,称为湿基湿含量。参见湿含量条目。
CAS号:
性质:为了表示湿物料的含湿(水)量,常以单位质量湿物料为基准表示所含湿分(水分)的质量,称为湿基湿含量。参见湿含量条目。
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