金属量子隧道阻浪材料原理、技术现状及应用前景

C. Dutcher
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引用次数: 1

摘要

本文报道了一种新型高分子阻浪材料装置正在进行的研究项目的现状。它们基于金属间量子力学隧道效应,已经证明比其他类型的设备速度更快,并且有可能实现每体积容量的高能量,同时具有一致性可塑性。后者可以在器件设计中产生高度的灵活性,从而可以覆盖广泛的应用。本文描述了它们的工作原理,研究了理想装置中能量处理的理论极限,给出了当前材料发展的现状,以及三个潜在的应用实例和它们的一般考虑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metallic Quantum Tunneling Surge arresting Materials Principles, Technology Status, And Potential Applications
This paper reports the status of an ongoing research project being carried out on a new class of polymeric surge arresting material devices. They are based on inter-metallic quantum mechanical tunnelling, have demonstrated higher speeds than other types of devices, and have the potential for achieving high energy per volume capacity, while being conformably moldable. The latter can yield a high degree of flexibility in device design allowing the coverage of a wide range of applications. This paper describes their principles of operation, examines the theoretical limit for energy handling in an ideal device, gives status of current material development as well as three potential application examples and their generic considerations.
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CiteScore
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