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(4086)USING DISPERSION AND WETTING CONTROL TO IMPROVE INTERFACIAL AND MECHANICAL PROPERTIES OF CARBON FIBER/MODIFIED NANO-SIC EPOXY COMPOSITES

机译：（4086）采用分散和润湿控制，改善碳纤维/改性纳米SiC环氧复合材料的界面和力学性能

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Significant improvements in mechanical properties (particularly stiffness)results from the appropriate addition of micro-carbon fibers in the nano- and hetero-structures of modified nano-SiC filled epoxy matrix composites. The optimum dispersion conditions were found to be significantly dependent both the amount of nano-SiC filler and the sonication time. To investigate these dispersion effects, composites were fabricated with 5 different nano-SiC filler concentrations and compared to the untreated composite. Changes in electrical capacitance were used as a measure of the comparative degree of dispersion in these nano-SiC-epoxy composites. FE-SEM was used to observe the interfacial changes for the different surface conditions, and the mechanical damage was evaluated by inspection of fractured surfaces. Optimal conditions of dispersion, interfacial adhesion and aspect ratio of the modified nano-SiC fillers were found to improve the composites mechanical properties.

机译：机械性能（特别刚度）的显着改善是由改性纳米填充环氧基质复合材料的纳米和异质结构中的适当加入微碳纤维。发现最佳分散条件显着依赖于纳米SiC填料的量和超声处理时间。为了研究这些分散效果，用5种不同的纳米SiC填充浓度制造复合材料，并与未处理的复合材料相比。电容的变化用作这些纳米环氧基复合材料中的比较分散度的量度。 Fe-SEM用于观察不同表面条件的界面变化，通过检查裂缝表面来评估机械损伤。发现改性纳米SiC填料的分散，界面粘附和纵横比的最佳条件改善了复合材料的机械性能。

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《SAMPE Conference and Exhibition》|2014年||共11页
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Joung-Man Park; Dong-Jun Kwon; Zuo-Jia Wang;
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中图分类 TB3-532;
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6. (4086)USING DISPERSION AND WETTING CONTROL TO IMPROVE INTERFACIAL AND MECHANICAL PROPERTIES OF CARBON FIBER/MODIFIED NANO-SIC EPOXY COMPOSITES [C] . Joung-Man Park, Dong-Jun Kwon, Zuo-Jia Wang SAMPE Conference and Exhibition . 2014

机译：（4086）采用分散和润湿控制，改善碳纤维/改性纳米SiC环氧复合材料的界面和力学性能
7. Controlling dispersion and electric-field-assisted alignment of carbon nanotubes and nanofibers for multi-functional epoxy composites. [D] . Sharma, Ambuj. 2010

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9. Improving the interfacial and mechanical properties of short glass fiber/epoxy composites by coating the glass fibers with cellulose nanocrystals [O] . A. Asadi, M. Miller, R. J. Moon, 2016

机译：通过用纤维素纳米晶体涂覆玻璃纤维来改善短玻璃纤维/环氧树脂复合材料的界面和机械性能

(4086)USING DISPERSION AND WETTING CONTROL TO IMPROVE INTERFACIAL AND MECHANICAL PROPERTIES OF CARBON FIBER/MODIFIED NANO-SIC EPOXY COMPOSITES

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