Porous ceramic materials on the base of strontium zirconate were developed with zirconium dioxide, baddeleyite powder, and granular polystyrol.
以锆酸锶为基体,采用二氧化锆、巴德雷石粉和粒状聚苯乙烯为原料,制备了多孔陶瓷材料。
They can be made of ceramic materials as well.
他们可以和陶瓷材料制成的。
Surface thermocouple used in ceramic materials has been developed.
针对陶瓷材料的特点,研制了一种双薄膜式表面热电偶。
Toughening technology is an important topic for brittle ceramic materials.
增韧技术对于脆性陶瓷材料来说是一个重要的课题。
Laser processing ceramic materials is a new application of laser technology.
陶瓷材料的激光加工是激光技术应用的新领域。
The fine ceramic materials, determines the decorations should also be Koreyoshi's.
优良的陶瓷材料,决定了装饰也应是善的。
The critical temperature difference of nanocompsite ceramic materials was researched.
研究了纳米复合陶瓷材料的抗热震临界温差;
Use ceramic materials as the dielectric, silver as electrode, and metal plate as shell.
用陶瓷材料做电介质,金属银做电极,金属极板做外壳。
A double - membranous Surface thermocouple used in ceramic materials has been developed.
针对陶瓷材料的特点,研制了一种双薄膜式表面热电偶。
They can also improve the behavior and increase the application reliability of ceramic materials.
并可改善陶瓷材料的性能,提高其使用可靠性。
Direct coagulation Casting (DCC) is a novel near net shape process concept for ceramic Materials.
直接凝固注模成型是一种崭新的净尺寸陶瓷成型概念。
Quality ceramic materials become fewer, vitrified tiles have low whiteness, therefore need new opacifier.
优质的陶瓷原料越来越少,玻化砖的白度较低,因此需寻找新的乳浊剂。
But up to now there were only four dental zirconia ceramic materials in market with relatively high prices.
但上市销售的牙科氧化锆陶瓷材料仅有四种,且价格比较昂贵。
The rule of forming gel, properties of powders and electric properties of ceramic materials have been studied.
本文主要对成胶规律。粉末的特性及陶瓷材料的电性能进行了研究。
The failure problems of porous ceramic materials were analyzed using the lattice model and statistical methods.
应用格模型和统计学方法分析了多孔陶瓷材料的失效问题。
But the densification of ceramic materials is vitally important to mechanical, thermal shock and fatigue properties.
但是,陶瓷材料的致密化对其力学、抗热震和热疲劳性能有至关重要的影响。
This article summarizes the investigation of HAP biomaterial from the synthesizing of HAP powder and ceramic materials.
本文主要从HAP粉体材料及陶瓷材料的合成方面对HAP生物材料的研究进行综述。
These functional devices can be realized by using electro-optical effect of transparent ferroelectric ceramic materials.
这些功能元件可采用透明铁电陶瓷材料的电光效应来实现。
The main disadvantages of artificial bone made of ceramic materials are of high brittleness and low resistance to fatigue.
现有人工骨陶瓷材料存在的主要缺点是脆性大,抗疲劳性差。
For the brittle ceramic materials, flexural strengths are determined by the stress at fracture in transverse bending tests.
对脆性陶瓷材料来说,抗弯强度即为横向弯曲试验中样品断裂时的应力。
The dynamic bending strengths of these ceramic materials were determined from the obtained deflection-maximum tensile stress curves.
测试结果说明,陶瓷材料的动态抗弯强度具有挠度变化率效应。
How to make a comprehensive evaluation of the machinability for processible ceramic materials is put forward according to fuzzy mathematics.
根据模糊数学理论提出一种可加工陶瓷材料可加工性的综合评判方法。
Balls manufactured from ceramic materials are extremely resistant to corrosion and abrasion, and offer excellent performance characteristics.
球从制造的陶瓷材料是极其耐腐蚀和磨损,并提供优良的性能特点。
The bottom line tells one of the ceramic materials research prospects in the preparation of fine ceramics of monodispersed power at present .
说明用单分散超微粒子制备精细陶瓷是目前陶瓷材料研究的主要方向之一。
The article describes the basic characteristics of ceramic materials that ferrite materials have, and the applied ceramic production technique.
叙述了铁氧体材料具有陶瓷材料的基本特性,以及所采用的陶瓷生产工艺。
Typical experimental results for metals, polymers and ceramic materials are given and a good agreement with other investigater's results is shown.
给出金属、高聚物和硅酸盐等材料典型的实验结果,它们与其他一些研究者的结果十分一致。
In this paper, the present research on the surface modified the weldability of ceramic materials during brazing and diffusion welding was reviewed.
综述了表面改性在陶瓷钎焊和扩散焊领域应用的研究现状,并展望了表面改性技术在材料焊接领域的应用前景。
The authors also give some piezoelectric ceramic materials formulas for making the piezoelectric tuning fork according to their researching results.
作者还根据自己的研究结果介绍了几种实用的和用作压电音叉换能元件的压电陶瓷材料的配方。
Compared with other sintering methods, the nano-ceramic materials with the finer grain size and the higher density can be obtained by SLS technology.
与其他烧结方法相比,激光烧结制备的纳米材料晶粒尺寸更为细小,组织结构更为致密。
Compared with other sintering methods, the nano-ceramic materials with the finer grain size and the higher density can be obtained by SLS technology.
与其他烧结方法相比,激光烧结制备的纳米材料晶粒尺寸更为细小,组织结构更为致密。
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