Graphene Oxide / Nanodiamond Nanocomposites Characterized via Particle Dispersion and Micro- and Nanoscale Mechanical Properties

M. Abdelrahman, Slade C. Jewell, A. Elbella, S. J. Timpe
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Abstract

Polystyrene matrix nanocomposites were formulated using a custom nano particle consisting of nanodiamond covalently bonded to graphene oxide. Dispersion and mechanical property results for the nano composite are compared to those results for the neat polymer as well as for a nanocomposite infused with graphene oxide only. Dynamic light scattering was performed to determine the size of particles and the results showed that the custom nanoparticle reduced agglomeration by about 50% as compared to the graphene oxide alone. Microscale Vickers hardness testing revealed that neat polymer as well as the two nanocomposite samples all have similar hardness while nanoscale atomic force microscopy revealed that the neat polymer samples have the highest stiffness on average and the custom nanoparticle composite samples have the lowest stiffness. This difference in mechanical behavior with scale is attributed to local defects at the particle/matrix interface.
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氧化石墨烯/纳米金刚石纳米复合材料的颗粒分散和微纳米力学性能表征
将纳米金刚石与氧化石墨烯共价结合,制备了聚苯乙烯基纳米复合材料。纳米复合材料的分散和机械性能结果与纯聚合物的结果以及仅注入氧化石墨烯的纳米复合材料的结果进行了比较。通过动态光散射来确定颗粒的大小,结果表明,与单独的氧化石墨烯相比,定制的纳米颗粒减少了约50%的团聚。显微维氏硬度测试显示,整齐聚合物和两种纳米复合材料样品的硬度相近,纳米原子力显微镜显示,整齐聚合物样品的平均硬度最高,定制纳米颗粒复合材料样品的平均硬度最低。这种随尺度变化的力学行为差异归因于颗粒/基体界面处的局部缺陷。
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