| 1. | Study on morphotropic phase boundary of pb - based relaxor ferroelectric materials
弛豫铁电材料的准同型相界研究 |
| 2. | Simulation for nonlinear electro - mechanical coupling of ferroelectric materials
铁电材料非线性力电耦合特性的模拟计算 |
| 3. | Fourth , impurity is often built in the ferroelectric material during the fabrication process
( 4 )杂质也是铁电材料制备过程中不可避免的。 |
| 4. | Additionally , relaxor behavior is always a key subject in the field of ferroelectric material
此外,弛豫现象一直是铁电领域的一个重要课题。 |
| 5. | 0xl0 - 2 c / cm2k respectively . and the sbn thin film can avoid plumbum pollution of pzt ferroelectric material
而且, sbn在制备过程中能够避免pzt等铁电材料的铅污染的问题。 |
| 6. | The polarization mechanism of ferroelectric materials includes displacement polarization and turning - direction polarization
摘要铁电材料的极化机制包括:位移极化,转向极化。 |
| 7. | These results indicate that the phonon - pseudospin interaction should be taken into account for the physics properties in ferroelectric materials
因此在研究铁电材料物理性质时声子的作用是不可忽视的。 |
| 8. | Then a simple analytical formula is obtained , which expresses the constitutive relation between polarization p and loading electric field e of ferroelectric materials
由此推出一个简单的解析表达式,表达了铁电材料极化强度p与外电场e的本构关系。 |
| 9. | Ferroelectric materials are not only vital electronic functional materials , but are thought of as the most interesting and promising intelligent materials of the future
铁电材料不仅是重要的电子功能材料,而且被认为是最有应用前景的智能基础材料。 |
| 10. | Ferroelectric materials , with the ferroelectric and piezoelectric characteristics , can be widely applied in many fields , such as information memory , communication , navigation , accurate measurement and machinery et al
铁电材料由于具有铁电特性和压电特性而在信息储存、通信、导航、精密测量、机械等众多领域得到广泛的应用。 |
