1) pianlinite
偏岭石
1.
The microstructure differences between pianlinite and metakaolinite were studied based on the wide angle X ray diffraction scattering technology and the radial distributing function for pianlinite and metakaolinite samples heated at different temperatures.
采用广角度 X射线衍射 -散射 ( WAXS)测试技术和由此得到的径向分布函数 ( RDF) ,研究了偏岭石与变高岭石的结构差异 。
2) metakaolin
[,metə'keiəlin]
偏高岭石
1.
In this study,fly ash and metakaolin were used as main materials,kalium hydroxide as activator,liquid sodium hydroxide as structural template to prepare geopolymer.
以粉煤灰和偏高岭石为主要原料,氢氧化钾为激发剂,工业液体硅酸钠作结构模板剂制备了无机矿物聚合物材料。
2.
Geopolymer was synthesized with metakaolin and tungsten-tailing as the main raw material and alkali activator composed of sodium silicate solution and sodium hydroxide solution.
以偏高岭石、钨尾矿为主要原料,水玻璃和NaOH组成的碱激发剂制备矿物聚合材料,测试了制品的抗折强度,讨论了几个主要因素对其性能及结构的影响。
3.
Researches show that,the Metakaolin of Datong coal gangue made from temperature 600℃,possesses best pozzolanic activity;Concrete compression strength of blending Datong metakaolin of 600℃ has surpassed calcined meta kaolin compression strength of 850℃ and 1000℃,and at the moment its nature is optimum.
研究结果表明,经600℃煅烧形成的偏高岭石,具有最佳的火山灰活性;掺合经600℃煅烧的大同偏高岭石到水泥中,能显著改善混凝土的力学性能,提高混凝土的密实度和机械强度,为大同高岭岩煤矸石在建材、化工等领域的深加工利用提供了科学依据。
3) metakaolinite
偏高岭石
1.
Preparation and possible mechanism of potassium acetate/metakaolinite intercalated composites
醋酸钾/偏高岭石插层复合材料的制备及机理研究
2.
A geopolymer material based on dehydrolyed aluminosilicate and phosphoric acid was synthesized from metakaolinite condensed with low-polymeric \~(3n-)_n tetrahedral units in phosphoric acid aqueous solution at room temperature.
在室温条件下,通过偏高岭石与磷酸水溶液中低聚[PO4]3nn-四面体基团的缩合,制备了脱水铝硅酸盐磷酸基矿物键合材料,该反应产物具有三维Si—O—Al—O—P结构。
3.
The degree of geopolymeric reaction between metakaolinite and sodium silicate solutions was characterized by the compressive strengths of the products of the geopolymeric reaction.
采用硅酸钠溶液与偏高岭石的固化键合反应所得到的固体产物的抗压强度表征其键合反应的程度 ,并对不同模数的硅酸钠溶液条件下获得的矿物聚合材料的强度进行了测试。
4) metahalloysite
偏多水高岭石(变水高岭石)
5) metakaolinite
偏高岭土
1.
NaY zeolite was synthesized from metakaolinite by hydrothermal method.
结果表明:偏高岭土水热合成Y型分子筛是固相转变机理,晶化过程是一个扩散-成胶-原位重排的过程。
2.
Casting was used to prepare a cementing material of metakaolinite and phosphate (the molar ratio of P2O5 to Al2O3 is 0.
80μm的偏高岭土和磷酸盐溶液按P2O5与Al2O3的摩尔比为0。
3.
The white cement without clinker was prepared by metakaolinite,lime and gypsum as main raw materials.
以偏高岭土、石灰和石膏为主要原料制得无熟料白水泥。
6) metakaolin
[,metə'keiəlin]
偏高岭土
1.
Metakaolin and Its Influence on Oil Well Cement Performance;
偏高岭土及其对油井水泥性能的影响
2.
The Potential Application of Metakaolin in China;
偏高岭土在我国的潜在应用
3.
Study on the performance improvement of concrete mixed with metakaolin and slag;
偏高岭土与矿渣复掺对混凝土性能改善的研究
补充资料:方石岭
方石岭位于本县东固镇的东南方向。过去,因不长一草一木,整个方石岭光秃秃的,一块块石头都是尖角嶙嶙,故名尖石岭,为什么后来又叫方石岭呢?这里面还有一段有趣的传说哩。
传说唐朝的一个和尚,从河南的嵩山徒步来到吉州的紫光寺讲经。路经尖石岭,见周围崇山峻岭,树青青草青青,山道回转通幽径,唯独这岭上干干净净,除了石头还是石头。他站在岭上,欣然长叹一声:“阿弥陀佛,为何一草不长,一木不生,天生的山必长草长木,此何独不然?”他决心要让这座尖石山上长出青青的草,葱茏的树。于是,他打坐在岭上最高的石尖上,心中虔诚默默祷告:苍天有知,让它长出草木。他接连三年至此,尖石被他坐成方石,感动了天神,让他的每一滴汗水化作一棵草木检,三年啊!造就了绿茵茵的青山。至今,方石岭上还保留着那和尚打坐的印痕呢。
东固百姓为了感谢和尚的功德,一代一代地传下了这个故事。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。