本发明涉及一种石墨烯与无机材料形成的多层薄膜材料及其制备方法。
The invention relates to a multilayer film material formed by graphene and inorganic material and a preparation method thereof.
以此理论为依据,可对不同介质材料或多层介质薄膜进行分析设计。
On the basis of the theory, we can analyze and design different dielectric materials or multiplayer dielectric films.
本论文主要研究对象是两种类型的磁电阻薄膜材料:锰基钙钛矿结构氧化物三明治多层膜和金属颗粒膜。
In this dissertation, we investigate mainly two types of film materials with magnetoresistance effects: the manganese perovskites oxide sandwich films and metal granular films.
同均一相pzt薄膜材料相比,由致密层和多孔层交替排列形成的近周期PZT多层膜具有铁电、介电增强效应。
Compared with the uniform PZT thin films, the PZT multilayer with alternating dense-PZT and porous-PZT layers exhibits an enhancement both in ferroelectric and dielectric performances.
为了求解复合材料多层扁壳在初始薄膜力时的强迫振动,在直接积分法中加入了迭代步骤,推导出了相应的公式和计算步骤。
The iterative method is added into direct integral method to analyze forced vibration problem of laminated composite shallow shells while the relative formulas are derived.
多层片对人体无害,具有一定的气体阻隔性,并包括一个易于制作的金属薄膜层和包装材料的多层片材的。
A multilayer sheet harmless to human beings, having a certain gas-barrier property, and comprising an easily-produced metal film layer and a packaging material made of the multilayer sheet.
这预示着更多的金属薄膜及多层膜材料应用于微电子元器件中。
This indicates that the metal thin film and multilayer materials will be applied more widely to microelectronic components.
这预示着更多的金属薄膜及多层膜材料应用于微电子元器件中。
This indicates that the metal thin film and multilayer materials will be applied more widely to microelectronic components.
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