Surface treatments for improving the mechanical properties of carbon nanofiber/thermoplastic composites

Finegan IC.; Tibbetts GG.; Glasgow DG.; Ting JM.; Lake ML.

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Surface treatments for improving the mechanical properties of carbon nanofiber/thermoplastic composites

机译：用于改善碳纳米纤维/热塑性复合材料机械性能的表面处理

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Nanofiber-matrix adhesion was studied after surface treating carbon nanofibers using a variety of methods. Among as-grown fibers, those produced with longer gas phase feedstock residence times were less graphitic but adhered to the polypropylene matrix better, giving improved tensile strength and modulus. A modest degree of oxidation was also found to increase adhesion to the matrix and increase composite tensile strength, while extended oxidation attacked the fibers sufficiently to decrease composite properties. Two chemical treatments were found to be ineffective in increasing tensile strength or modulus. (C) 2003 Kluwer Academic Publishers. [References: 10]

机译：在使用多种方法对碳纳米纤维进行表面处理之后，研究了纳米纤维与基质的粘附性。在成长期的纤维中，以较长的气相原料停留时间生产的那些纤维石墨较少，但与聚丙烯基质的粘合性更好，从而提高了拉伸强度和模量。还发现适度的氧化程度可增加对基体的附着力并增加复合材料的拉伸强度，而长时间的氧化作用会侵蚀纤维，从而降低复合材料的性能。发现两种化学处理在增加拉伸强度或模量方面无效。（C）2003 Kluwer学术出版社。 [参考：10]

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《Journal of Materials Science》 |2003年第16期|共6页
作者
Finegan IC.; Tibbetts GG.; Glasgow DG.; Ting JM.; Lake ML.;
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正文语种 eng
中图分类工程材料学;
关键词
Fiber composites;

机译：纤维复合材料;

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1. Surface treatments for improving the mechanical properties of carbon nanofiber/thermoplastic composites [J] . Finegan IC., Tibbetts GG., Glasgow DG., Journal of Materials Science . 2003,第16期

机译：用于改善碳纳米纤维/热塑性复合材料机械性能的表面处理
2. Surface treatments for improving the mechanical properties of carbon nanofiber/thermoplastic composites [J] . I. C. Finegan, G. G. Tibbetts, D. G. Glasgow, Journal of Materials Science . 2003,第16期

机译：用于改善碳纳米纤维/热塑性复合材料机械性能的表面处理
3. Effect of thermoplastic resin transfer molding process and flame surface treatment on mechanical properties of carbon fiber reinforced polyamide 6 composite [J] . Polymer Composites . 2020,第4期

机译：热塑性树脂转移模塑工艺和火焰表面处理对碳纤维增强聚酰胺6复合材料力学性能的影响
4. SURFACE TREATMENT OF CARBON NANOFIBERS FOR IMPROVED COMPOSITE MECHANICAL PROPERTIES [C] . D. G. Glasgow, G. G. Tibbetts, M. J. Matuszewski, Materials and processing technology—60 years of SAMPE progress . 2004

机译：表面处理碳纳米纤维以改善复合材料的机械性能
5. Effects of vapor grown carbon nanofibers on electrical and mechanical properties of a thermoplastic elastomer [D] . Basaldua, Daniel Thomas 2014

机译：气相生长碳纳米纤维对热塑性弹性体电学和机械性能的影响
6. Effects of Thickness and Amount of Carbon Nanofiber Coated Carbon Fiber on Improving the Mechanical Properties of Nanocomposites [O] . Ferial Ghaemi, Ali Ahmadian, Robiah Yunus, 2016

机译：碳纳米纤维包覆的碳纤维的厚度和数量对改善纳米复合材料力学性能的影响
7. Effects of surface modification, carbon nanofiber concentration, and dispersion time on the mechanical properties of carbon-nanofiber–polycarbonate composites [O] . Yong Gao, Peng He, Jie Lian, 2006

机译：表面改性，碳纳米纤维浓度和分散时间对碳 - 纳米纤维聚碳酸酯复合材料力学性能的影响
8. Studies of the Surface Treatment and Sizing of Carbon Fiber Surfaces on the Mechanical Properties of Composites Containing Carbon Fibers [R] . Sherwood, P. M. A. , Lease, K. B. , Locke, J. E. , 1996

机译：碳纤维表面处理及上浆对碳纤维复合材料力学性能影响的研究

Surface treatments for improving the mechanical properties of carbon nanofiber/thermoplastic composites

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