| 1. | In the thesis , mechanism of ferroelectrics phase transition is discussed
本论文研究铁电相变的机制。 |
| 2. | Study on pyrochlore in synthesis process of lead - based relaxor ferroelectrics
铅基弛豫铁电材料中的焦绿石相研究 |
| 3. | Solidified microstructure and phase structure of relaxor ferroelectrics pmn - pt
弛豫型铁电材料的凝固组织与相结构 |
| 4. | The research evolvement of the phase transition of lead - free nbt - based relaxor ferroelectrics
3基弛豫铁电体相变的研究进展 |
| 5. | Influence of thermal effect on domain turning of ferroelectrics under cycle - electric field
循环电载下热效应对铁电材料畴变的影响 |
| 6. | Quantum paraelectrics are quite different from the normal ferroelectrics as far as the dielectric susceptibility is concerned
量子顺电体是一类特殊的电介质,和通常的铁电体有所不同。 |
| 7. | The ferroelectrics polycrystal consists of a set of bonded crystal and each crystal comprises a set of distinct domain under mesoscale
铁电体由紧密相连的单晶组成,细观尺度上铁电体的单晶具有电畴结构。 |
| 8. | The multilayer composites ( cof3 # ) were prepared at 900 c by cofiring jd ferroelectrics and ty ferrite using tape casting processes
7h时,差别因子小于1 ,继续增加保温时间时,界面处晶粒尺寸将小于远离界面区域的晶粒尺寸。 |
| 9. | Because of the interaction , correlation of the potentials between dipoles comes into being in the critical region , and then lead to the occurrence of ferroelectrics phase transition
在临界区,电偶极矩的势形成关联,并最终导致相变的发生。 |
| 10. | In chapter one , we briefly recount some properties of ferroelectrics and review the research history , approaches and actuality in domestic and overseas
本文的第一章简单介绍铁电体的性质,述评了对铁电体研究的意义,所采用的方法和研究现状。 |
