1) compositional and structural characteristics
钛基柱撑累托石成分和结构特征
2) Zr-pillared rectorite
锆基柱撑累托石
1.
Mechanism of adsorption of rectorite was ion exchange adsorption, with physical adsorption while adsorption of Zr-pillared rectorite was chemical and physical adsorption without ion exchange.
结果表明柱撑累托石的脱色率明显高于提纯累托石,提纯累托石以离子交换吸附为主,伴随物理吸附,而锆基柱撑累托石是化学吸附和物理吸附,不存在阳离子交换。
3) the pillared rectorite
柱撑累托石
1.
The thermal stability of the pillared rectorite is influenced by the producing methods of pillaring agents and the ratio of Ree/Al.
在室温条件下,用取代法和共聚法配制稳定的La/A l二元聚合阳离子,用该聚合阳离子柱撑累托石,其柱撑材料的热稳定性达到500℃以上。
4) pillared rectorie
层柱累托石
1.
The mechanism of treating landfill leachate by photoirradiated Ti/Zr-pillared rectorie can be summarized as:the equation of the first order kinetics is y=0.
光辐照Ti/Zr层柱累托石处理垃圾渗滤液的反应过程,其催化动力学方程为:y=0。
5) delaminated structure
柱撑结构
1.
In contrast with the classical PILCs structure with intercalation of metal irons hydrolysis product,based on the analyses of powder X-ray diffraction(XRD),nitrogen adsorption-desorption isotherms and Fourier transform infrared spectroscopy(FTIR),a resultant iron-clay with novel meso-microporous delaminated structure containing pillared fragments was recognized.
与柱撑结构不同,层离结构中,大量阴离子(NO3-)能够作为平衡铁水解聚合物正电荷的反离子而较稳定地存在,研究还发现铁层离-柱撑蒙脱石具有作为新型催化剂、吸附剂应用的前景。
2.
In contrast with the classical PILCs structure with intercalation of metal irons hydrolysis product, based on the analyses of powder X-ray diffraction (XRD),nitrogen adsorption-desorption isotherms and Fourier transform infrared spectroscopy (FTIR),a resultant iron-clay with novel meso-microporous delaminated structure containing pillared fragments was recognized.
与柱撑结构不同,层离结构中,大量阴离子(NO_3~-)能够作为平衡铁水解聚合物正电荷的反离子而较稳定地存在,研究还发现铁层离-柱撑蒙脱石具有作为新型催化剂、吸附剂应用的前景。
6) Ti/Cu cross-linking rectorite
钛/铜交联累托石
补充资料:锂蒙脱石,锂皂石,汉克托石
CAS:12173-47-6
中文名称:锂蒙脱石;水辉石;锂蒙脱石,锂皂石,汉克托石
英文名称:Hectorite;Veegumt;hectorite(clay mineral);hectorite(claymineral)
中文名称:锂蒙脱石;水辉石;锂蒙脱石,锂皂石,汉克托石
英文名称:Hectorite;Veegumt;hectorite(clay mineral);hectorite(claymineral)
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