几种硅质原料被用于硬硅钙石二次粒子制备中。
Several silica raw materials with very different nature were used to produce xonotlite secondary particles.
产品是无机材料,主晶相是硬硅钙石,理化性能稳定。
The MFDJ calcium silicate boards are inorganic materials, the main crystal phase is the xonotlite, with excellent physical and chemical properties.
考察了几种锆类化合物添加剂对硬硅钙石形貌的影响。
The effect of several zirconium compounds as additives on the morphology of xonotlite crystals was examined.
研究了硬硅钙石型硅酸钙保温材料活性料浆的反应过程与反应机理。
This article studies the reaction process and mechanism of calcium silicate thermal insulating material active mortar of hard rankinite type.
超轻硅酸钙材料实际上是由硬硅钙石纤维状晶体组成的多孔球状团聚体构成。
Ultra_light calcium silicate insulation material is constructed with spherical agglomerates of fibrous xonotlite crystals.
然而,半中空球对进一步深入研究超细直径硬硅钙石纤维的性能与应用造成很大的局限。
However, hollow structure is harm to the study on the properties and applications of ultrafine xonotlite fibers.
用该项新技术所生产的硬硅钙石型硅酸钙保温材料,其性能达到美国和日本同类产品标准。
The physical properties of production made by this technology are conformed with the standard of ASTM and JISA.
通过模型计算对硬硅钙石型硅酸钙、气凝胶及硬硅钙石-气凝胶复合绝热材料的导热系数进行了对比研究。
The effective thermal conductivities of xonotlite-type calcium silicate, aerogel and xonotlite-aerogel composite insulation material were compared by model calculation.
由粉石英制备的硬硅钙石二次粒子球具有中空结构,而白炭黑对应样品则以纤维聚集成的块体为主,成球差。
The secondary particle sphere of xonotlite yielded by konilite is of hollow structure, however, for the carbon white fibrous crystal just stacked densely and balling up is poor.
认为 :硬硅钙石针状晶体是平衡反应的最终产物 ,在适当的温度、压力下 ,经过一定的反应时间就能生成。
The results were as follows: the needle crystal of xonotlite was controlled by reaction temperature, pressure and time.
通过动态水热法合成出的球形硬硅钙石颗粒具有很高的气孔率,使轻制硬硅钙石材料成为一种用途广泛的绝热(保温)材料。
Xonotlite-based material is a very useful insulation material, because spherical xonotlite agglomerates which are synthesized with dynamic hydrothermal rrocess consist of many pores.
通过动态水热法合成出的球形硬硅钙石颗粒具有很高的气孔率,使轻制硬硅钙石材料成为一种用途广泛的绝热(保温)材料。
Xonotlite-based material is a very useful insulation material, because spherical xonotlite agglomerates which are synthesized with dynamic hydrothermal rrocess consist of many pores.
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