Molecular Structure Control in Mesophase Pitch via Co-Carbonization of Coal Tar Pitch and Petroleum Pitch for Production of Carbon Fibers with Both High Mechanical Properties and Thermal Conductivity

Spinnable mesophase pitches C-MP, P-MP, and C/P-MP were synthesized from coal tar pitch, petroleum pitch, and their cocarbonized pitches, respectively. The molecular structures of these mesophase pitches and their effect on the microcrystalline sizes of the mesophase and the properties of carbon fib...

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Veröffentlicht in:	Energy & fuels 2020-05, Vol.34 (5), p.6474-6482
Hauptverfasser:	Guo, Jianguang, Li, Xuanke, Xu, Huitao, Zhu, Hui, Li, Baoliu, Westwood, Aidan
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creator	Guo, Jianguang Li, Xuanke Xu, Huitao Zhu, Hui Li, Baoliu Westwood, Aidan
description	Spinnable mesophase pitches C-MP, P-MP, and C/P-MP were synthesized from coal tar pitch, petroleum pitch, and their cocarbonized pitches, respectively. The molecular structures of these mesophase pitches and their effect on the microcrystalline sizes of the mesophase and the properties of carbon fibers derived from them were comparatively investigated. The molecular structures and orientation of the prepared mesophase pitches have significant influence on the performance of resultant carbon fibers. In comparison with P-MP and C/P-MP, C-MP possessing the highest aromaticity, a rigid molecular structure, and a very small amount of methyl groups makes C-MP-CFs with smaller crystal size and lower decomposition during the preparation process and thus results in the best mechanical properties of their carbon fibers, consequently. The prepared P-MP, however, containing abundant methyl groups and possessing a semirigid molecular structure, yields products with higher d002-spacing and larger mesomorphic phase size. The largest crystallite dimension of P-MP combined with its higher molecular orientation makes P-MP-CFs possessing the highest crystal size and axial thermal conductivity. On the other hand, C/P-MP shows the molecular structure character of both coal tar pitch and petroleum pitch and a tunable mesophase domain orientation. The carbon fiber prepared from cocarbonized C/P-MP shows both good mechanical properties, like C-MP-based fiber, and, in particular, ultrahigh thermal conductivity, like P-MP-based fiber.
doi_str_mv	10.1021/acs.energyfuels.0c00196
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The molecular structures of these mesophase pitches and their effect on the microcrystalline sizes of the mesophase and the properties of carbon fibers derived from them were comparatively investigated. The molecular structures and orientation of the prepared mesophase pitches have significant influence on the performance of resultant carbon fibers. In comparison with P-MP and C/P-MP, C-MP possessing the highest aromaticity, a rigid molecular structure, and a very small amount of methyl groups makes C-MP-CFs with smaller crystal size and lower decomposition during the preparation process and thus results in the best mechanical properties of their carbon fibers, consequently. The prepared P-MP, however, containing abundant methyl groups and possessing a semirigid molecular structure, yields products with higher d002-spacing and larger mesomorphic phase size. The largest crystallite dimension of P-MP combined with its higher molecular orientation makes P-MP-CFs possessing the highest crystal size and axial thermal conductivity. On the other hand, C/P-MP shows the molecular structure character of both coal tar pitch and petroleum pitch and a tunable mesophase domain orientation. 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The largest crystallite dimension of P-MP combined with its higher molecular orientation makes P-MP-CFs possessing the highest crystal size and axial thermal conductivity. On the other hand, C/P-MP shows the molecular structure character of both coal tar pitch and petroleum pitch and a tunable mesophase domain orientation. 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The molecular structures of these mesophase pitches and their effect on the microcrystalline sizes of the mesophase and the properties of carbon fibers derived from them were comparatively investigated. The molecular structures and orientation of the prepared mesophase pitches have significant influence on the performance of resultant carbon fibers. In comparison with P-MP and C/P-MP, C-MP possessing the highest aromaticity, a rigid molecular structure, and a very small amount of methyl groups makes C-MP-CFs with smaller crystal size and lower decomposition during the preparation process and thus results in the best mechanical properties of their carbon fibers, consequently. The prepared P-MP, however, containing abundant methyl groups and possessing a semirigid molecular structure, yields products with higher d002-spacing and larger mesomorphic phase size. The largest crystallite dimension of P-MP combined with its higher molecular orientation makes P-MP-CFs possessing the highest crystal size and axial thermal conductivity. On the other hand, C/P-MP shows the molecular structure character of both coal tar pitch and petroleum pitch and a tunable mesophase domain orientation. The carbon fiber prepared from cocarbonized C/P-MP shows both good mechanical properties, like C-MP-based fiber, and, in particular, ultrahigh thermal conductivity, like P-MP-based fiber.</abstract><pub>American Chemical Society</pub><doi>10.1021/acs.energyfuels.0c00196</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0002-5288-5723</orcidid><oa>free_for_read</oa></addata></record>
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title	Molecular Structure Control in Mesophase Pitch via Co-Carbonization of Coal Tar Pitch and Petroleum Pitch for Production of Carbon Fibers with Both High Mechanical Properties and Thermal Conductivity
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