超弹性碳微/纳米弹簧的构象及其性能

Shaoming Yang, Xiuqin Chen, M. Hasegawa, S. Motojima
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引用次数: 4

摘要

以含少量H2S的乙炔为原料,采用Ni催化热解制备了双螺旋碳微弹簧,纯度高(沉积物中几乎100%),产率高(与乙炔原料相比约为20%)。研究了碳微弹簧的结构和一些性能,并讨论了其潜在的应用前景。研究发现,它们具有超弹性特性,在释放载荷后,可拉伸至原弹簧轴长度的3-15倍,并收缩至原始状态。电阻率随延伸长度的增加而增加,在解除载荷后恢复。这一特性使微弹簧成为MEMS中先进的大块传感器材料。此外,微弹簧在GHz区域表现出优异的电磁波吸收性能。并介绍了以含铁合金为催化剂制备的新型单螺旋碳纳米弹簧的构象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Conformations of Super-Elastic Carbon Micro/Nano-Springs and Their Properties
Double-helix carbon micro-springs were prepared by the Ni catalyzed pyrolysis of acetylene containing a small amount of H2S, in high purity (almost 100% among the deposits) and yield (about 20% versus acetylene feed). The conformation and some properties of the carbon micro-springs were examined, and the potential applications were discussed. It was found that they have super-elastic properties, and could be extended to 3-15 times of the original spring axis length and contracted to original state after the load was released. The resistivity increased with increasing extension length, and then got recovery after the load was released. This property enables the microsprings to be used as an advanced bulk sensor material in MEMS. Furthermore, the micro-springs exhibited outstanding electromagnetic wave absorption properties in GHz regions. The conformation of novel single-helix carbon nano-springs prepared by Fe-containing alloys as the catalyst will be also presented.
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