2-1 @@m, was synthesized on kaolin microspheres under hydrothermal crystallization conditions using n-butylamine as template.
在水热条件下,以正丁胺为模板剂,在高岭土微球中合成了晶粒直径约0。
Under different synthesis conditions, we succeeded in growing different zeolites such as P KSO1 mixture, pure KSO1 and Y, on kaolin microspheres.
通过不同的合成方法 ,在高岭土微球上生长了沸石分子筛P与沸石分子筛KSO1的混合物、单一沸石分子筛KSO1和小晶粒沸石分子筛Y ,并用多种物理手段如X射线衍射、电子显微镜和固体核磁共振波谱等对合成样品进行了表征 。
The effect of crystallization time on in-situ synthesis of ZSM-5 zeolite on Kaolin microsphere was investigated by using XRD,SEM,FT-IR and N2 adsorption.
采用XRD、SEM、FT-IR和N2吸附等技术研究了晶化时间对高岭土微球上合成ZSM-5沸石的影响。
The zeolite L synthesised on Kaolin microspheres was modified to reduce its K2O content and to improve its Si/Al ratio.
对高岭土微球上合成的L沸石进行改性,降低其氧化钾含量,提高其硅铝比。
ZSM-5 zeolites were synthesized in-situ on kaolin microspheres by hydrothermal crystallization method from amine-free system.
无胺体系中,采用水热法在焙烧高岭土微球上原位晶化合成了ZSM-5分子筛。
Based on the nature and structure of kaolin,the author introduced two major processing and preparation methods of ultra-fine kaolin,meanwhile elaborated on the present researches about its intercalation in our country as well as the latest breakthrough concerning the other materials.
以高岭土的主要性质及其结构特点为基础,介绍了超微细高岭土的机械超细粉碎方法及研究现状,同时介绍了超微细高岭土插层的研究现状以及在新材料中的应用。
In-situ Synthesis of ZSM-5 on Kaolin Microspheres from Amine-free System
高岭土微球上无胺法 ZSM-5 的原位合成
Study of In-Situ Synthesis of ZSM-5 on Kaolin Microspheres;
高岭土微球原位晶化合成ZSM-5沸石催化剂及其表征、应用
FLOCCULATION CHARACTERISTIC OF CHEMICAL FLOCCULANTS TO KAOLIN PARTICLES
化学絮凝剂对高岭土微颗粒的絮凝特性研究
Study of the Enhanced Removal of Microsystis Aeruginosa by Adding Kaolin and PAM in PAC Flocculation Process
高岭土对铜绿微囊藻的PAC强化絮凝去除技术
Study on the Removal of Chlorella Vulgaris by Combined Using PAC and Kaolin;
联用聚合氯化铝和高岭土去除小球藻的研究
Flocculation characteristic of bio-flocculant to micro-granular Kaolin suspension
微生物絮凝剂对微颗粒高岭土悬浊液的絮凝特性
Research on Color Slag Glass-Ceramic Preparing by Utilizing Pyrite Tailing Kaolin Mined from South of Sichuan;
利用川南硫铁尾矿高岭土制备彩色矿渣微晶玻璃的研究
Research of Utilizing Kaolin From Pyritic Gangue to Produce Special Type Cement and Glass-Ceramic;
利用川南硫铁尾矿高岭土制备特种水泥和微晶玻璃的研究
Influence of Chemical Pretreatment on Kaolin as Coagulation-aid for Microsystis Aeruginosa Removal
化学预处理对用高岭土助凝去除铜绿微囊藻的影响的研究
Removal of Microcystis aeruginosa by Chitosan-kaolinite Composite
壳聚糖-高岭土复合体去除铜绿微囊藻的试验研究
Study on the Determination of Trace Composition and Impurity Elements in Kaolin with ICP-MS
ICP-MS法测定高岭土中微量成分及杂质元素的研究
Study on NO_3~--N Leach in the Green Soil of Golf Course with Rainfall Simulation Experiment
高尔夫球场果岭土壤硝酸盐氮淋洗的模拟试验研究
a kaolin, mustard, etc poultice
高岭土、 芥子末等泥罨剂.
Influence of Montmorillonite and Kaolinite on Tetracycline Adsorption
膨润土和高岭土对四环素吸附的影响
PREPARATION OF ULTRA-PURE AND ULTRA-FINE ALUMINA FROM KAOLINITE IN COAL MEASURES--EXTRACTION SEPARATION OF FeⅢ
煤系高岭土制取高纯氧化铝——萃取除铁
Effect of Golf Course Maintenance on Green Speed;
高尔夫球场果岭养护措施对果岭球速的影响研究
Study on Optimization of Rootzone Mixture for Golf Putting Green
高尔夫球场果岭根系层优化配制研究
The Discovery of Microspherules in Archean Lamellar Plagioclase Amphibolite of Gongchangling Area,Liaoning Province
辽宁弓长岭太古宙斜长角闪岩中微球粒之发现
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