YSZ films are prepared by sol gel method.
应用溶胶凝胶方法制备了YSZ薄膜。
The future development trend of study on YSZ me…
指出了未来YSZ薄膜应用研究的发展趋势。
The properties and morphology of YSZ materials was also researched.
文中对实验材料性能、组织形态以及流延工艺进行了研究。
The key to obtain a good bond is the ability of the filler metal to wet the YSZ.
的关键,取得了良好的债券的能力湿料的氧化锆。
It found how the thermal conductivity of YSZ changes with the adding amount of yttria.
找到了氧化钇加入量变化时ysz导热性能的变化规律。
Influences of Oxygen Partial Pressure and Deposition Rate on Residual Stress of YSZ Thin Films.
氧分压和沉积速率对YSZ薄膜残余应力的影响。
The crystal structures and ionic conductivity of yttria stabilized zirconia (YSZ) are analyzed.
分析了钇稳定的二氧化锆(YSZ)的晶体结构及离子导电性。
Ultrafine YSZ particles are a new type of advanced material, which has wide and significant USES.
纳米ysz是一种新型的高科技材料,有着广泛而重要的用途。
In this paper, research was carried out on thermal conductivity of YSZ samples prepared through experiments.
鉴于Y SZ陶瓷材料热物性研究的不完善性,本文对实验制得的YSZ试样进行了导热性能的研究。
The electrochemical cell preferably has a solid electrolyte, which may be yttrium stabilized zirconia (YSZ).
电化学电池优选具有固体电解质,该固体电解质是氧化钇稳定的氧化锆(YSZ)。
This ceramic is obviously superior to YSZ ceramic in oxygen pump performance due to its smaller polarization of electrode.
它的氧泵性能明显地优于ysz,这与该陶瓷具有较小的电极极化作用有关。
The yttrium-stabilized zirconia(YSZ)and strontium titanium(STO)film buffer layers were prepared by Sol-gel process on Si substrates.
采用溶胶-凝胶法在硅基板上先分别制备钇稳定氧化锆(YSZ)和钛酸锶(STO)两种薄膜缓冲层。
The conductivity of sputtered YSZ thin film is high and would be a good solid electrolyte for using in high temperature electrochemistry.
薄膜具有较高的电导率,完全可以作为固体电解质使用。
In this paper, some main methods for preparing the YSZ film are reviewed, and the future development trends of fabricating YSZ electrolyte are analyzed.
论述了制备ysz电解质薄膜的主要方法,并对这些方法进行了评述和展望。
YSZ solid electrolyte film was prepared by aqueous gel casting. The influences of temperature, relative humidity and sample thickness on drying process were studied.
用水基凝胶注法制备出ysz固体电解质薄膜,研究了温度、湿度和坯体厚度对干燥过程的影响规律。
Molding pressure, Sinter temperature in advance and the velocity of temperature raised are the main factors for the matching of anode substrate and thin film YSZ electrolyte.
影响阳极基底与YSZ电解质薄膜共焙烧匹配性的主要因素是成型压力、预焙烧温度和焙烧升温速率。
The new forms include inks for screen-printing of ceramic cathode and anode materials, and a YSZ electrolyte in an aqueous suspension formulated for ultrasonic spray coating.
这些新形态材料包括,用作陶瓷阴阳极材料、丝网印花的油墨和用于超声波喷涂的水悬浮液内的YSZ电解质。
The research results show that the YSZ porous ceramic tubes with a higher porosity and a uniform distribution porosity can be prepared by using corn meal as the pore forming agent.
结果表明,以玉米粉为成孔剂,可制备出孔隙率较高、孔径分布均匀的YSZ多孔陶瓷管。
Molding pressure, sinter temperature in advance and the raise velocity of temperature were the main influencing factors for the matching of anode substrate and thin film YSZ electrolyte.
影响阳极基底与YS Z电解质薄膜共焙烧匹配性的主要因素是成型压力、预焙烧温度和焙烧升温速率。
Scanning electron microscopy were used to observe the changes in the microstructure of YSZ coatings before and after thermal shock, to study the failure process of coating during thermal shock;
利用扫描电镜观察YSZ涂层热震前后显微组织的变化,研究涂层在热震过程中的失效过程;
Scanning electron microscopy were used to observe the changes in the microstructure of YSZ coatings before and after thermal shock, to study the failure process of coating during thermal shock;
利用扫描电镜观察YSZ涂层热震前后显微组织的变化,研究涂层在热震过程中的失效过程;
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