A STABILIZATION MECHANISM OF M(2)O(3)C-TYPE RARE EARTH TETRAGONAL STABILIZED ZRO2 VIA CO-DECOMPOSITION

Pretorius G.

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A STABILIZATION MECHANISM OF M(2)O(3)C-TYPE RARE EARTH TETRAGONAL STABILIZED ZRO2 VIA CO-DECOMPOSITION

机译：共分解法合成M（2）O（3）C型稀土四方稳定Zro2的稳定机理

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Evidence was obtained that c-type rare earth M(2)O(3) stabilized ZrO2 in the tetragonal phase via oxygen coordination between the M(2)O(3) molecule and the ZrO2 unit cell. The ratio for 100% stabilization was calculated to be 2.7 mol% M(2)O(3) stabilizer. This was experimentally proved by using the co-decomposition process to obtain 100% tetragonal stabilization efficiency. It has also been established that stabilization is dependant upon the average Zr-O bond length of 226 pm as a parameter and not necessarily of an exact radius varying between 206 pm and 246 pm. [References: 12]

机译：获得的证据表明c型稀土M（2）O（3）通过M（2）O（3）分子和ZrO2晶胞之间的氧配位稳定了四方相中的ZrO2。计算出的100％稳定化比例为2.7 mol％M（2）O（3）稳定剂。通过使用共分解过程获得100％的四方稳定效率，实验证明了这一点。还已经确定，稳定化取决于226pm的平均Zr-O键长度作为参数，并且不一定具有在206pm和246pm之间变化的精确半径。 [参考：12]

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《Journal of Materials Science》 |1995年第3期|共4页
作者
Pretorius G.;
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正文语种 eng
中图分类工程材料学;
关键词
Polycrystalline zirconia; Transformation; Phase;

机译：多晶氧化锆相变相;

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1. A STABILIZATION MECHANISM OF M(2)O(3)C-TYPE RARE EARTH TETRAGONAL STABILIZED ZRO2 VIA CO-DECOMPOSITION [J] . Pretorius G. Journal of Materials Science . 1995,第3期

机译：共分解法合成M（2）O（3）C型稀土四方稳定Zro2的稳定机理
2. Polymorphic transformation of δ-Bi_2O_3 stabilized with Ln_2O_3 (Ln = Sm, Eu, Gd, Tb and Dy) into a new phase with a C-type rare-earth oxide-related structure [J] . Akiteru Watanabe Solid state ionics . 1995,第0期

机译：用Ln_2O_3（Ln = Sm，Eu，Gd，Tb和Dy）稳定的δ-Bi_2O_3的多态转化为具有C型稀土氧化物相关结构的新相
3. POLYMORPHIC TRANSFORMATION OF DELTA-BI2O3 STABILIZED WITH LN(2)O(3) (LN=SM, EU, GD, TB AND DY) INTO A NEW PHASE WITH A C-TYPE RARE-EARTH OXIDE-RELATED STRUCTURE [J] . Watanabe A. Solid state ionics . 1995,第0期

机译：用LN（2）O（3）（LN = SM，EU，GD，TB和DY）稳定的DELTA-BI2O3的多态转化为C型稀土氧化物相关结构的新相
4. Sintering behavior of tetragonal zirconia ceramic stabilized with yttria and rare earth oxide (YRE) mixtures [C] . S. L. Mineiro, M. C. A. Nono, C. Kuranaga, International Latin-American Conference on Powder Technologys . 2003

机译：用钇和稀土氧化物（YRE）混合物稳定四角氧化锆陶瓷烧结行为
5. Structure evolution and tetragonal phase stabilization mechanism of electrospun barium titanate nanofibers. [D] . Yuh, Junhan. 2006

机译：电纺钛酸钡纳米纤维的结构演变和四方相稳定机理。
6. Full Tetragonal Phase Stabilization in ZrO2 Nanoparticles Using Wet Impregnation: Interplay of Host Structure Dopant Concentration and Sensitivity of Characterization Technique [O] . Claudiu Colbea, Daniel Avram, Bogdan Cojocaru, 2018

机译：湿法浸渍ZrO2纳米粒子中的完全四方相稳定：主体结构掺杂剂浓度和表征技术敏感性的相互作用
7. Tetragonal to cubic transformation of SiO2 stabilized ZrO2 polymorph through dysprosium substitutions [O] . Vasanthavel, Subramaniyan, Derby, Brian, Kanaan, Sanjeevi 2017

机译：通过镝取代对二氧化硅稳定的ZrO2多晶型进行四方到立方相变
8. Magnetic and Optical Properties of Defect-Stabilized Charge States of Rare-Earth Atoms. [R] . schroeer,dietrich 1973

机译：稀土原子缺陷稳定电荷态的磁学和光学性质。

A STABILIZATION MECHANISM OF M(2)O(3)C-TYPE RARE EARTH TETRAGONAL STABILIZED ZRO2 VIA CO-DECOMPOSITION

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