另外,多组电介质型电活性聚合物用极少的电能就能产生极大的力量。
Moreover, a stack of several dielectric EAPs can generate substantial forces using little power.
电活性聚合物(EAP)主要有两种类型,那就是我们通常所说的离子型和电介质型(见下图)。
There are two main types of electroactive polymer (EAP), which are usually referred to as ionic and dielectric (see diagram).
因此,研究与寻找具备高介电常数的电应力控制新型聚合物基复合材料就成为工程电介质物理领域研究的重要课题。
Therefore, to develop the composite with high permittivity, which can control electrical stress, has become an important subject in the field of engineering dielectric physics.
聚合物基纳米复合材料作为电介质和电气绝缘材料在电力电子技术领域有着广泛的应用前景。
Polymer nanocomposites are promising as near-future dielectrics and electrical insulation from the viewpoint of their inherent excellent properties.
其他气体也可以穿过聚合物薄膜 ,但是它们的电介质常数和水蒸汽 的电介质常数相比可以忽略不计 (80 >>2….3) 。
Other gases can also penetrate the polymer film, but their dielectric constant is negligible compared to water vapour (80 >> 2…3).
其他气体也可以穿过聚合物薄膜 ,但是它们的电介质常数和水蒸汽 的电介质常数相比可以忽略不计 (80 >>2….3) 。
Other gases can also penetrate the polymer film, but their dielectric constant is negligible compared to water vapour (80 >> 2…3).
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