Abstract
To overcome the disadvantages of discontinuous conventional batch extruders, a continuous screw extruder is introduced to manufacture pitch-based carbon fibers. For a carbon fiber preparation process, an oxidation time of 8 h was determined to be optimal for obtaining desirable mechanical properties of the fibers acquiring employing the screw extruder. It is hypothesized that the differences in the properties of the carbon fibers fabricated utilizing the batch and screw extruders originate from the melt spinning time; therefore, a combined equation for the total amount of heat treatment from the pitch precursor through the oxidation process is established in this study. The crystallinity of the carbon fibers is confirmed to correspond to the differences in mechanical properties as the oxidation time increases. The poor mechanical properties of the carbon fibers that are insufficiently oxidized are a result of irregular oxidation from the sheath to the core of the fiber cross section. However, the over-oxidized carbon fibers also show poor mechanical properties than the optimal fibers. This result further affirms that excessive oxidation times cause unstable chemical bonding, which interrupts the formation of stable crystal structures after carbonization.
Highlights
Carbon fibers attract considerable attention because they provide a high tensile strength and modulus with low weight
Our study considers the total amounts of heat absorbed by the pitch during the oxidation and carbonization processes and the melt spinning process to explain the characteristics of the screw extruder
This result indicates that the screw extruder is feasible for fabricating carbon fibers (CFs) compared to the conventional batch extruder
Summary
Carbon fibers attract considerable attention because they provide a high tensile strength and modulus with low weight. It is an easy way to obtain the as-spun pitch; the three main limitations of limited melting capacity, poor temperature uniformity of the molten pitch and irregular thermal treatment time according to the spinning sequence limit its use to the laboratory scale. To overcome these disadvantages, a screw extruder is introduced in our study. This study attempts to interpret the crystallinity differences in terms of the various types and strengths of the chemical bonds after oxidation
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