通过控制工业纺丝设备的温度改善介相间距碳纤维的机械性能和导热性能

IF 5.7 3区材料科学 Q2 Materials Science

New Carbon Materials Pub Date : 2024-04-01 DOI:10.1016/S1872-5805(24)60826-7

Gao-ming Ye , Kui Shi , Huang Wu , Dong Huang , Chong Ye , Ting OUYang , Shi-peng Zhu , Zhen Fan , Hong-bo Liu , Jin-shui Liu

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引用次数: 0

摘要

在控制纺丝温度的同时，使用工业设备以恒定的沥青挤出速率制备了中间沥青基碳纤维（MPCF）。研究了纺丝温度对其微观结构、机械性能和热导率的影响。MPCF 裂变表面的扫描电镜图像显示，在所有纺丝温度下，石墨层都具有辐射状结构，但当纺丝温度从 309 摄氏度升至 320 摄氏度时，石墨层的形态会从细小折叠变为大而扁平。同时，MPCF 的热导率和抗拉强度分别从 309 oC 时的 704 W-m-1-K-1 和 2.16 GPa 增加到 320 oC 时的 1 078 W-m-1-K-1 和 3.23 GPa。在较高的纺丝温度下，介相沥青在喷丝板出口处的粘度降低，模孔效应减弱，这有助于改善介相沥青分子在沥青纤维中的取向，从而改善 MPCF 的晶粒大小和取向。

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Improving the mechanical properties and thermal conductivity of mesophase-pitch-based carbon fibers by controlling the temperature in industrial spinning equipment

Mesophase-pitch-based carbon fibers (MPCFs) were prepared using industrial equipment with a constant extrusion rate of pitch while controlling the spinning temperature. The influence of spinning temperature on their microstructures, mechanical properties and thermal conductivities was investigated. SEM images of the fractured surface of MPCFs show that the graphite layers have a radiating structure at all spinning temperatures, but change from the fine-and-folded to the large-and-flat morphology when increasing the spinning temperature from 309 to 320 ^oC. At the same time the thermal conductivity and tensile strength of the MPCFs respectively increase from 704 W·m⁻¹·K⁻¹ and 2.16 GPa at 309 ^oC to 1 078 W·m⁻¹·K⁻¹ and 3.23 GPa at 320 ^oC. The lower viscosity and the weaker die-swell effect of mesophase pitch at the outlets of the spinnerets at the higher spinning temperature contribute to the improved orientation of mesophase pitch molecules in the pitch fibers, which improves the crystallite size and orientation of the MPCFs.

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来源期刊

New Carbon Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

6.10

自引率

8.80%

发文量

3245

审稿时长

5.5 months

期刊介绍： New Carbon Materials is a scholarly journal that publishes original research papers focusing on the physics, chemistry, and technology of organic substances that serve as precursors for creating carbonaceous solids with aromatic or tetrahedral bonding. The scope of materials covered by the journal extends from diamond and graphite to a variety of forms including chars, semicokes, mesophase substances, carbons, carbon fibers, carbynes, fullerenes, and carbon nanotubes. The journal's objective is to showcase the latest research findings and advancements in the areas of formation, structure, properties, behaviors, and technological applications of carbon materials. Additionally, the journal includes papers on the secondary production of new carbon and composite materials, such as carbon-carbon composites, derived from the aforementioned carbons. Research papers on organic substances will be considered for publication only if they have a direct relevance to the resulting carbon materials.