Effects of drawing process on the structure and tensile properties of textile-grade PAN fiber and its carbon fiber

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Effects of drawing process on the structure and tensile properties of textile-grade PAN fiber and its carbon fiber

机译：拉伸工艺对纺织级PAN纤维及其碳纤维结构和拉伸性能的影响

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Carbon fibers (CFs) were prepared using low-cost, textile-grade polyacrylonitrile fibers, which were 200% to 400% drawn in a hot water bath at 90°C or/and in a tubular furnace at 180°C. X-ray diffractograms confirmed that the drawing process led to higher crystallinity and molecular orientation. These fibers were stabilized in a convection oven at 25–255°C for 390 min. After stabilization, carbonization was performed to obtain carbon fibers. The tensile strength of CFs without drawing was ～0.8 GPa; however, CFs with 200% and 200% drawing in a hot water bath at 90°C and in a tubular furnace at 180°C, respectively, showed a tensile strength of ～1.7 GPa. These results suggest that the drawing process of precursor fibers affected the tensile properties of the resulting CFs significantly.

机译：碳纤维（CFs）使用低成本的纺织级聚丙烯腈纤维制备，将其在90°C的热水浴中或/和在180°C的管式炉中拉伸200％至400％。 X射线衍射图证实，拉伸过程导致较高的结晶度和分子取向。这些纤维在对流烘箱中于25–255°C的温度下稳定390分钟。稳定后，进行碳化以获得碳纤维。未拉伸的CFs的拉伸强度为〜0.8 GPa;然而，在90°C的热水浴中和在180°C的管式炉中分别拉伸200％和200％的CFs的拉伸强度约为1.7 GPa。这些结果表明，前体纤维的拉伸过程显着影响了所得CF的拉伸性能。

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《e-Polymers》 |2014年第3期|共8页
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中图分类高分子化合物工业（高聚物工业）;
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carbon fiberdrawing processtensile propertiestextile polyacrylonitrileXRD;

机译：碳纤维拉伸过程拉伸性能纺织聚丙烯腈XRD;

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Effects of drawing process on the structure and tensile properties of textile-grade PAN fiber and its carbon fiber

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