硫酸钙晶须属于新型材料。
讨论了硫酸钙晶须增强HIPS的机理。
Discussed the calcium sulfate whisker HIPS enhance the mechanism.
硫酸钙晶须是由生石膏制备而成的新型非金属材料。
Calcium sulphate whisker is a new nonmetal material prepared from gypsum.
以海水卤水为原料,采用水热法制备了硫酸钙晶须。
Calcium sulphate whisker was prepared by hydrothermal method using seawater or brine as raw material.
此外,文章还介绍了碳酸钙晶须在塑料等领域的应用。
In addition, the applications of calcium carbonate whisker in plastics, et al, are introduced in the article.
本文介绍了碳酸钙晶须的制备方法,性能特征及其应用。
In this paper the preparations, the properties and applications of calcium carbonate whisker are presented.
对硫酸钙晶须在道路改性沥青中的应用进行了系统研究。
The application research of CSW in paving asphalt was carried on.
人工合成的无水硫酸钙晶须又可划分为无水可溶、无水死烧两种。
The synthetic anhydrous calcium sulfate whiskers can be further divided into two types including anhydrous soluble and anhydrous dead roasted.
本文的研究对于硫酸钙晶须的工业化生产及应用也具有重要的意义。
Moreover, the investigations of this paper are very significant for the industrial preparation and application of calcium sulfate whiskers.
硫酸钙晶须为二水硫酸钙、半水硫酸钙或无水硫酸钙的纤维状单晶体;
The calcium sulfate whisker is a fibrous monocrystal of calcium sulfate dihydrate, calcium sulfate hemihydrate or anhydrous calcium sulfate.
采用微波加热处理二水硫酸钙晶须,脱水后成为半水或无水硫酸钙晶须。
The calcium sulphate dihydrate whisker is treated by microwave heating, forming calcium sulfate hemihydrate or anhydrous sulphate of calcium after dehydration.
结果表明:碳酸钙晶须具有均匀性好、完整单晶率高、晶须产率高等特点。
The results indicated that calcium carbonate whiskers. as a kind of new whisker material, have the advantages of good uniform. high perfect crystal ratio and high productivity.
通过调整工艺,制备了较好的碳酸钙晶须,为在碳化塔中生产碳酸钙晶须积累了经验。
By regulating the technology, preferable calcium carbonate whisker was prepared and it provided experience for manufacture of calcium carbonate whisker in carbonizer.
硬脂酸钠在半水硫酸钙晶须表面的吸附并不均匀,同时吸附状态也随用量的改变而改变。
The absorption of sodium stearate on hemihydrate calcium sulfate whiskers surface is uneven and the absorption state changes with additive amount.
这与碳酸钙晶须的针状晶型有关,当体系流动时,碳酸钙晶须既有平移运动,也有旋转运动。
This and calcium carbonate whisker needle crystal shape relevant, when the system flow, calcium carbonate whisker both translational motion, also have the rotary motion.
作者归纳了硫酸钙晶须的主要用途,并针对利用工业副产石膏制备硫酸钙晶须的现状进行了综述。
This paper summarizes the main application of calcium sulfate whiskers, especially, reviews the production status of calcium sulfate whiskers by using the industrial by-product gypsum.
碳酸钙晶须具有成本低、白度高、填充量大的特点,因而大量地用于改善聚合物复合材料的力学性能。
Calcium carbonate whiskers are characteristic of low cost, high whiteness and big package, and they are widely used for improving the mechanic performance of polymer composite.
改性硫酸钙晶须产品采用活化指数、接触角、扫描电子显微镜、X射线衍射和红外光谱分析进行表征。
Modified calcium sulphate whiskers are characterized with active exponent, contact Angle, SEM, X-ray diffraction and IR respectively.
结合纤维改性沥青机理、溶解度理论、胶体理论以及界面层理论等对硫酸钙晶须改性沥青机理进行分析探讨。
The mechanism of CSW modifying paving asphalt was analyzed and discussed based on the mechanism of fiber treating asphalt, solubility theory, colloid and interface theory, etc.
研究了不同改性剂处理的硫酸钙晶须用量、沥青改性工艺因素以及基质沥青属性等对道路沥青性能的影响规律。
The effects of modified calcium sulfate whisker's dosage, asphalt and its modified techniques factors on the performance of asphalt were studied.
分别使用轻质碳酸钙和碳酸钙晶须对PP进行填充,研究了填料种类、填料量以及表面处理对体系性能的影响。
The influences of sort, quantity and surface treatment of fillers on properties of PP filled with lightweight calcium carbonate and aragonite whisker respectively were studied.
研究结果表明:硫酸钙晶须改性HIPS对其力学性能有一定的增强效果,熔体流动性增加,但对耐热性有所下降。
The results show that: calcium sulfate whisker HIPS modified its mechanical properties have a certain effect of the increase, melt flow increased, but the heat resistance has declined.
射线衍射、扫描电镜分析表明,水溶性P2O5存在降低了碳酸钙晶型由球霞石向方解石转变的速率,并使碳酸钙晶体晶习变坏。
The results obtained from XRD and SEM indicate that water-soluble P2O5 in gypsum reduces the rate of transformation from vaterite to calcite and makes crystalline grains smaller and irregular.
本研究对以钙云母为主相的可切削微晶玻璃的制备工艺、结构特点、增强增韧机理及力学性能等进行了初步的研究。
The study on preparation process, microstructure, strengthening and toughening mechanisms of MGC mainly containing Ca-mica were investigated, together with mechanical properties and machinability.
实验方法与结果首先对纳米碳酸钙和晶须碳酸钙及聚l -乳酸(PLLA)进行光镜、扫描电镜、透射电镜的检测。
Methods and ResultsAt first, we tested calcium carbonate whisker, nanometer calcium carbonate and PLLA by light microscope, scanning electron microscope and transmission electron microscope.
实验方法与结果首先对纳米碳酸钙和晶须碳酸钙及聚l -乳酸(PLLA)进行光镜、扫描电镜、透射电镜的检测。
Methods and ResultsAt first, we tested calcium carbonate whisker, nanometer calcium carbonate and PLLA by light microscope, scanning electron microscope and transmission electron microscope.
应用推荐