Add to ORKGThe mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene strongly depend on the fibre diameter, which may be attributed to the presence of a skin/core structure in these fibres. High strength carbon fibres could thus be prepared by using thin precursor filaments, that are obtained by a melt-spinning process, in which the spinline is stretched at an elevated surrounding temperature. Careful carbonization of these precursors gives carbon fibres with a strength of 2.16 GPa, a modulus of 130 GPa and a high strain at break of 3%
Optimum process conditions were investigated for maximizing the mechanical properties of the carbon ...
Carbon fiber is prepared from various carbonizable pre-cursors of polyacrylonitrile (PAN), pitch, ra...
We report the production of automotive grade carbon fibers in a low temperature carbonization furnac...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres have strengths of 2.5 to 5 GPa in the fibre direction and an elastic modulus of 200 to...
Carbon fibres have strengths of 2.5 to 5 GPa in the fibre direction and an elastic modulus of 200 to...
High strength, high modulus carbon fibres are becoming increasingly important as high performance en...
Carbon fibers have been processed from gel spun polyacrylonitrile copolymer on a continuous carboniz...
This thesis concerns the tensile strengths and Young's moduli of carbon fibres as they are affected ...
Optimum process conditions were investigated for maximizing the mechanical properties of the carbon ...
Carbon fiber is prepared from various carbonizable pre-cursors of polyacrylonitrile (PAN), pitch, ra...
We report the production of automotive grade carbon fibers in a low temperature carbonization furnac...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
The mechanical properties of amorphous carbon fibers, derived from linear low density polyethylene s...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres with good mechanical properties have been produced from linear low density polyethylen...
Carbon fibres have strengths of 2.5 to 5 GPa in the fibre direction and an elastic modulus of 200 to...
Carbon fibres have strengths of 2.5 to 5 GPa in the fibre direction and an elastic modulus of 200 to...
High strength, high modulus carbon fibres are becoming increasingly important as high performance en...
Carbon fibers have been processed from gel spun polyacrylonitrile copolymer on a continuous carboniz...
This thesis concerns the tensile strengths and Young's moduli of carbon fibres as they are affected ...
Optimum process conditions were investigated for maximizing the mechanical properties of the carbon ...
Carbon fiber is prepared from various carbonizable pre-cursors of polyacrylonitrile (PAN), pitch, ra...
We report the production of automotive grade carbon fibers in a low temperature carbonization furnac...