属于这类物质的有云母、瓷器、石英、玻璃、木材等等。
To this class of substance belong mica, porcelain, quartz, glass, wood, etc.
本文介绍了绢云母在尼龙6改性中作为增强剂及与玻璃纤维构成复合增强体系的应用情况。
The Application in a state of silk mica action reinforcement and glass fiber as composite reinforcing system in Nylon 6 modified was introduced.
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.
研究了一种新型的钙云母为主相高强度的可切削玻璃陶瓷的力学性能、可加工性、表面耐腐蚀性、耐磨耗性。
Mechanical strength, machinability, surface corrosive and wear abrasion of a new type glass ceramic composed of fluorophlgopite Ca-mice were studied in this article.
结果表明,玻璃鳞片及不锈钢鳞片对涂层的耐阴极剥离性能的提高要好于云母鳞片;
The results show that the efficiency of stainless steel flakes and glass flakes to improve the cathodic disbondment was better than that of mica powder.
氟晶云母优于其他云母的关键点在于:优秀的光、波透过率(像玻璃一样);
The advantages of Fluorphlogopite Mica are: good penetrativity of light and wave (as good as glass);
研究出一种脱离桐马路线的新型大电机模压主绝缘用环氧玻璃粉云母带,其结构温度指数为173.6。
This paper describes the development of a type of non-bismaleimide fiberglass mica tape with a temperature index of173.6, which is intended for moulding main wall insulation of large motors.
所采用的室温物理模型准确类比了高温下云母 玻璃陶瓷材料内部的应变特徵和材料流动规律。
The physical model simulates exactly the strain characteristic and flow regulation of the mica glass-ceramic during the uniaxial hot-pressing.
目的:研究氧化铝含量改变对CAD/CAM加工用四硅氟云母微晶玻璃的微观结构及力学性能的影响。
Objective:To investigate the influence of Al 2O 3 content change on properties of tetrasilicic fluormica glass-ceramics used for dental CAD/CAM restorations.
试验结果表明,脆性材料的延性切削模式的实现是由于云母晶体对裂纹走向的引导和玻璃相的强烈的剪切变形能力的共同作用。
The test results show that the mechanism of ductile-mode material removal of the brittle material is attributed to a combination of.
报道了玻璃-云母多孔材料研制的结果,研究了该材料的岩相结构,对材料的抗压强度、显气孔率、体积密度进行了测试。
The investigations were conducted experimentally on not only its petrogrphic structure but alsothe properties of its compressive strength, apparent porosity, apparent density and moisture content.
报道了玻璃-云母多孔材料研制的结果,研究了该材料的岩相结构,对材料的抗压强度、显气孔率、体积密度进行了测试。
The investigations were conducted experimentally on not only its petrogrphic structure but alsothe properties of its compressive strength, apparent porosity, apparent density and moisture content.
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