Mesophase pitch-based carbon fibers are one of the most promising materials for future structural and thermal-management applications because of their superio
Stabilization is the most complicated and time-consuming step in the manufacture of carbon fibers (C...
Industrial fabrication of mesophase carbon fibers is based on the melt spinning of mesophase carbon ...
Natural and synthetic mesophase pitches are discotic nematic liquid crystals and precursor material ...
High-performance (high modulus) carbon fibers have been melt-spun from various types of mesophase pi...
During melt spinning of carbon fibers, mesophase pitch is extruded through fine capillaries and stre...
To obtain mesophase pitch-based carbon fibers with improved mechanical strength while retaining supe...
The properties of pitch-based carbon fibers are known to depend on the microstructure developed duri...
Mesophase pitch-based noncircular carbon fibers have higher mechanical properties than round carbon ...
Two types of carbon fibers with a large diameter of ∼22 μm, derived from unstirred and vigorously st...
The excellent thermal properties of mesophase pitch-based carbon fibers makes them an ideal material...
Synthetic naphthalene pitches (SNPs) with isotropy and anisotropy were prepared by a simple thermal ...
Mesophase pitch-based carbon fibres can have excellent thermal transport properties and thus may be ...
Carbon fibers produced from mesophase pitch exhibit high stiffness and thermal conductivity and are ...
As one kind of special carbon fiber with very high thermal conductivity, mesophase pitch-based graph...
The effects of graphitization time and temperature on the properties of three mesophase pitch-based ...
Stabilization is the most complicated and time-consuming step in the manufacture of carbon fibers (C...
Industrial fabrication of mesophase carbon fibers is based on the melt spinning of mesophase carbon ...
Natural and synthetic mesophase pitches are discotic nematic liquid crystals and precursor material ...
High-performance (high modulus) carbon fibers have been melt-spun from various types of mesophase pi...
During melt spinning of carbon fibers, mesophase pitch is extruded through fine capillaries and stre...
To obtain mesophase pitch-based carbon fibers with improved mechanical strength while retaining supe...
The properties of pitch-based carbon fibers are known to depend on the microstructure developed duri...
Mesophase pitch-based noncircular carbon fibers have higher mechanical properties than round carbon ...
Two types of carbon fibers with a large diameter of ∼22 μm, derived from unstirred and vigorously st...
The excellent thermal properties of mesophase pitch-based carbon fibers makes them an ideal material...
Synthetic naphthalene pitches (SNPs) with isotropy and anisotropy were prepared by a simple thermal ...
Mesophase pitch-based carbon fibres can have excellent thermal transport properties and thus may be ...
Carbon fibers produced from mesophase pitch exhibit high stiffness and thermal conductivity and are ...
As one kind of special carbon fiber with very high thermal conductivity, mesophase pitch-based graph...
The effects of graphitization time and temperature on the properties of three mesophase pitch-based ...
Stabilization is the most complicated and time-consuming step in the manufacture of carbon fibers (C...
Industrial fabrication of mesophase carbon fibers is based on the melt spinning of mesophase carbon ...
Natural and synthetic mesophase pitches are discotic nematic liquid crystals and precursor material ...
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