弯曲载荷下碳纤维中纳米微晶屈曲的直接观察。

Direct observation of nanocrystallite buckling in carbon fibers under bending load.

作者信息

Loidl D, Paris O, Burghammer M, Riekel C, Peterlik H

机构信息

Institute of Materials Physics, University of Vienna, Boltzmanngasse 5, A-1090 Vienna, Austria.

出版信息

Phys Rev Lett. 2005 Nov 25;95(22):225501. doi: 10.1103/PhysRevLett.95.225501. Epub 2005 Nov 21.

DOI:10.1103/PhysRevLett.95.225501

PMID:16384230

Abstract

Single carbon fibers are deformed in bending by forming loops with varying radius. Position-resolved x-ray diffraction patterns from the bent fibers are collected from the tension to the compression region with a synchrotron radiation nanobeam of 100 nm size from a waveguide structure. A strain redistribution with a shift of the neutral axis is observed. A significant increase of the misorientation of the graphene sheets in the compression region shows that intense buckling of the nanosized carbon crystallites is the physical origin of different tensile and compressive properties.

摘要

通过形成具有不同半径的环，单根碳纤维在弯曲时发生变形。利用来自波导结构的100纳米尺寸的同步辐射纳米束，从弯曲纤维的拉伸区域到压缩区域收集位置分辨的x射线衍射图案。观察到中性轴偏移导致的应变重新分布。压缩区域中石墨烯片层取向差的显著增加表明，纳米尺寸碳微晶的强烈屈曲是不同拉伸和压缩性能的物理根源。

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弯曲载荷下碳纤维中纳米微晶屈曲的直接观察。

Direct observation of nanocrystallite buckling in carbon fibers under bending load.

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