1) SrTiO3 powder
SrTiO3粉体
1.
A hydro-thermal processing technology was employed to synthesize fine SrTiO3 powder by using Sr(NO3)2,Ti(OC4H9)4 and NaOH as mineralizer.
将Ti(OC4H9)4先溶于无水乙醇中,再与NaOH反应生成前驱物TiO(OH)2,在80℃下热处理2 h,可以大大减少产物中的杂质相,得到纯度较高的SrTiO3粉体。
2) SrTiO 3 powder
SrTiO3粉料
3) SrTiO 3
SrTiO3
1.
The rheological properties of SrTiO 3 suspersions and the effect of dispersant concentration on suspension stability are studied by meansof colloidal electrosteric stabilization mechanism.
本文采用胶体“电空间稳定机制”,以PMAA-NH4为分散剂,以沉降高度作为衡量浆料稳定性的参数,研究了SrTiO3粉末的悬浮流变特性及分散剂PMAA-NH4加入量对SrTiO3浆料稳定性的影响。
2.
The Electron Energy Loss Spectrum(EELS)of grain boundary composition of SrTiO 3 doped with Fe 3+ ,Nb 5+ was studied by using a high spatial resolution Scanning Transmission Electron Microscope(STEM).
采用高空间分辨率扫描透射电镜(STEM)对掺杂(Fe3+、Nb5+)SrTiO3晶界进行了观察,并利用采集的电子能量损失谱(EELS)对晶界组成进行了分析。
3.
Homoepitaxial SrTiO 3 thin film was grown by laser molecular beam epitaxy(LMBE) on SrTiO 3(100) single crystal substrates in ultrahigh vacuum(UHV).
在超高真空下利用激光分子束外延 (LMBE)方法基于SrTiO3 (10 0 )单晶基片同质外延SrTiO3 薄膜。
4) SrTiO_3
SrTiO3
1.
In this paper,the molecular dynamics method is adopted to simulate the melting process of SrTiO_3 with the interaction model of PIM.
采用分子动力学方法,势函数为PIM势,模拟了SrTiO3的熔化过程,将熔化的SrTiO3快速冷却到室温以获得非晶态。
2.
A SrTiO_3 single crystal (30mm×60mm) was successfully grown by the flame fusion method using SrTiO_3 powder hydrolyzed controllably from strontium chloride and titanium chloride.
本文以氯化锶和氯化钛为原料,采用控制水解法制备SrTiO3 原料粉末,使用焰熔法生长了SrTiO3 单晶体。
3.
In this paper, the making technology, ceramic composition and structure of a varistor-capacitor double properties chip component based on SrTiO_3 are described.
阐述了SrTiO3片式化压敏-电容双功能元件的制作工艺、陶瓷成分及结构,并讨论了陶瓷成分、结构及烧结工艺对元件压敏、电容性能的影响。
5) CaTiO-3-SrTiO-3
CaTiO3-SrTiO3
6) MgO/SrTiO 3
MgO/SrTiO3
补充资料:粉体技术
分子式:
CAS号:
性质:又称粉体工程,亦称颗粒工程。是研究颗粒性质和行为、颗粒形成、制备及颗粒处理技术的综合性技术科学。
CAS号:
性质:又称粉体工程,亦称颗粒工程。是研究颗粒性质和行为、颗粒形成、制备及颗粒处理技术的综合性技术科学。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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