@article{ART003273854},
author={Wenshuai Xi and Xiongchao Lin and Jingdong Yang and Caihong Wang and Yonggang Wang},
title={Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers},
journal={Carbon Letters},
issn={1976-4251},
year={2025},
volume={35},
number={5},
pages={2183-2195},
doi={10.1007/s42823-025-00914-6}
TY - JOUR
AU - Wenshuai Xi
AU - Xiongchao Lin
AU - Jingdong Yang
AU - Caihong Wang
AU - Yonggang Wang
TI - Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers
JO - Carbon Letters
PY - 2025
VL - 35
IS - 5
PB - Korean Carbon Society
SP - 2183
EP - 2195
SN - 1976-4251
AB - The aromatization degree of coal liquefaction pitch is closely related to its molecular structure evolution and the properties of derived carbon fibers. Using refined coal direct liquefaction pitch (RCLP) as raw material, pitches with different aromatization degrees were prepared by the self-pressurization/N₂ blowing two-stage thermal condensation method. Carbon fibers were then produced through melt spinning, oxidative stabilization, and carbonization. As the aromatization degree advanced, the C/H atomic ratio rose from 1.55 to 2.01, with the mesophase content nearing 100%. During RCLP thermal polymerization, large toluene-insoluble molecules were readily generated, yet the enrichment of the mesophase was comparatively sluggish. The spinnable pitch from RCLP had a relatively high aliphatic hydrogen content (33.40% ~ 13.69%) and a lower aromaticity (91.62% ~ 96.90%). Increasing aromatization made the carbon fiber cross-section’s radial transverse texture more distinct and ordered. The carbon layers stacked closely and parallelly, leading to a continuously rising tensile modulus. Due to the inhomogeneity from isotropic and anisotropic component changes, the carbon fiber tensile strength first decreased and then increased. When the spinnable pitch C/H ratio was 1.84, the mesophase pitch-based carbon fiber had an average diameter of 14.78 μm, a tensile strength of 1140 MPa, and a tensile modulus of 209 GPa.
KW - Coal liquefaction pitch;Aromatization degree;Spinnable mesophase pitch;Carbon fibers
DO - 10.1007/s42823-025-00914-6
ER -
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang and Yonggang Wang. (2025). Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers. Carbon Letters, 35(5), 2183-2195.
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang and Yonggang Wang. 2025, "Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers", Carbon Letters, vol.35, no.5 pp.2183-2195. Available from: doi:10.1007/s42823-025-00914-6
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang, Yonggang Wang "Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers" Carbon Letters 35.5 pp.2183-2195 (2025) : 2183.
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang, Yonggang Wang. Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers. 2025; 35(5), 2183-2195. Available from: doi:10.1007/s42823-025-00914-6
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang and Yonggang Wang. "Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers" Carbon Letters 35, no.5 (2025) : 2183-2195.doi: 10.1007/s42823-025-00914-6
Wenshuai Xi; Xiongchao Lin; Jingdong Yang; Caihong Wang; Yonggang Wang. Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers. Carbon Letters, 35(5), 2183-2195. doi: 10.1007/s42823-025-00914-6
Wenshuai Xi; Xiongchao Lin; Jingdong Yang; Caihong Wang; Yonggang Wang. Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers. Carbon Letters. 2025; 35(5) 2183-2195. doi: 10.1007/s42823-025-00914-6
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang, Yonggang Wang. Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers. 2025; 35(5), 2183-2195. Available from: doi:10.1007/s42823-025-00914-6
Wenshuai Xi, Xiongchao Lin, Jingdong Yang, Caihong Wang and Yonggang Wang. "Effect of aromatization degree of coal liquefaction pitch on the mechanical properties of pitch-based carbon fibers" Carbon Letters 35, no.5 (2025) : 2183-2195.doi: 10.1007/s42823-025-00914-6
