Supercritical Fluid Extraction for High Thermal Conductivity Carbon Fibers

Abstract

The goal of this project was to evaluate the potential of supercritical extraction (SCE) for producing a high-quality mesophase suitable for conversion into high-performance carbon fibers with excellent thermal and/or mechanical properties. Mesophase pitch fractions were produced by fractionation of an isotropic pitch with supercritical toluene in a region of liquid-liquid equilibrium. Results indicate that SCE provides greater product flexibility and uses less solvent than conventional solvent extraction. In particular, several 100% mesophase fractions with significantly different yields, softening points, and chemical compositions were made. Selected supercritically extracted mesophase fractions were melt-spun into both round and ribbon-shaped fibers. To facilitate the evaluation of these mesophases, a new method (i.e., Z-values by WAXD) was investigated for predicting the properties of final fibers from those of as-spun fibers. Lower Z-values of as-spun fibers yielded, upon identical heat treatment, improvements in tensile properties, crystallographic parameters, and thermal conductivities for the associated final fibers. Even though the heat treatment of the as-spun fibers was not optimized, final fibers with thermal conductivities equal to Amoco's P- 120 fibers were produced by graphitizing at only 2400 deg C. Finally, a preliminary design analysis indicates that producing mesophase by SCE is economically competitive with today's best commercial processes.

Document Details

Document Type

Technical Report

Publication Date

Mar 28, 1999

Accession Number

ADA365287

Entities

Tags