Transformation of petroleum asphaltenes to carbon fibers

The present developments of electron energy analysis in the microscopes by E.E.L.S. allow an accurate recording of the spectra and of their different complex structures associated with the inner shell electron excitation by the incident electrons (1). Among these structures, the Extended Energy Loss Fine Structures (EXELFS) are of particular interest. They are equivalent to the well known EXAFS oscillations in X-ray absorption spectroscopy. Due to the EELS characteristic, the Fourier analysis of EXELFS oscillations appears as a promising technique for the characterization of composite materials, the major constituents of which are low Z elements. Using EXELFS, we have developed a microstructural study of carbon fibers. This analysis concerns the carbon K edge, which appears in the spectra at 285 eV. The purpose of the paper is to compare the local short range order, determined by this way in the case of Courtauld HTS and P100 ex-polyacrylonitrile carbon fibers, which are high tensile strength (HTS) and high modulus (HM) fibers respectively.

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Coating of continuous carbon fibers with double layers by chemical vapor deposition

Journal de Physique IV (Proceedings) ◽

10.1051/jp4:20013110 ◽

2001 ◽

Vol 11 (PR3) ◽

pp. Pr3-885-Pr3-892 ◽

Cited By ~ 2

Author(s):

N. Popovska ◽

S. Schmidt ◽

E. Edelmann ◽

V. K. Wunder ◽

H. Gerhard ◽

...

Keyword(s):

Chemical Vapor Deposition ◽

Carbon Fibers ◽

Vapor Deposition ◽

Chemical Vapor ◽

Double Layers

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Morphology and properties of PA6 hybrid composites filled with short carbon fibers and organoclay

Polymer materials and technologies ◽

10.32864/polymmattech-2016-2-3-47-57 ◽

2016 ◽

Vol 2 (3) ◽

pp. 47-57 ◽

Cited By ~ 3

Author(s):

S.S. Pesetskii ◽

S.P. Bogdanovich ◽

V.V. Dubrovskii ◽

T.M. Sodyleva ◽

V.N. Aderikha ◽

...

Keyword(s):

Carbon Fibers ◽

Hybrid Composites ◽

Short Carbon

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Influence of carbon fibers and tungsten disulfide on the properties and structure of polytetrafluoroethylene

Polymer materials and technologies ◽

10.32864/polymmattech-2018-4-3-26-34 ◽

2018 ◽

Vol 4 (3) ◽

pp. 26-34

Author(s):

A. A. Okhlopkova ◽

A. P., Vasilev ◽

T. S. Struchkova ◽

A. G. Alekseev ◽

P. N. Grakovich

Keyword(s):

Carbon Fibers ◽

Tungsten Disulfide ◽

And Tungsten

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Microwave Absorbing Properties of Carbon Fibers Modified with BN/SiC Composite Coatings

Journal of Inorganic Materials ◽

10.15541/jim20140014 ◽

2014 ◽

Vol 29 (10) ◽

pp. 1093 ◽

Cited By ~ 7

Author(s):

ZHOU Wei ◽

XIAO Peng ◽

LI Yang ◽

LUO Heng ◽

HONG Wen

Keyword(s):

Carbon Fibers ◽

Composite Coatings ◽

Microwave Absorbing Properties ◽

Microwave Absorbing

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Cytocompatibility of Carbon Nanofiber Materials for Neural Applications

MRS Proceedings ◽

10.1557/proc-774-o7.35 ◽

2003 ◽

Vol 774 ◽

Author(s):

Janice L. McKenzie ◽

Michael C. Waid ◽

Riyi Shi ◽

Thomas J. Webster

Keyword(s):

Carbon Fiber ◽

Surface Energy ◽

Carbon Nanofibers ◽

Carbon Fibers ◽

Carbon Nanofiber ◽

Fiber Composite ◽

Scar Tissue ◽

Pc 12 Cells ◽

Low Surface Energy ◽

Poly Carbonate

AbstractSince the cytocompatibility of carbon nanofibers with respect to neural applications remains largely uninvestigated, the objective of the present in vitro study was to determine cytocompatibility properties of formulations containing carbon nanofibers. Carbon fiber substrates were prepared from four different types of carbon fibers, two with nanoscale diameters (nanophase, or less than or equal to 100 nm) and two with conventional diameters (or greater than 200 nm). Within these two categories, both a high and a low surface energy fiber were investigated and tested. Astrocytes (glial scar tissue-forming cells) and pheochromocytoma cells (PC-12; neuronal-like cells) were seeded separately onto the substrates. Results provided the first evidence that astrocytes preferentially adhered on the carbon fiber that had the largest diameter and the lowest surface energy. PC-12 cells exhibited the most neurites on the carbon fiber with nanodimensions and low surface energy. These results may indicate that PC-12 cells prefer nanoscale carbon fibers while astrocytes prefer conventional scale fibers. A composite was formed from poly-carbonate urethane and the 60 nm carbon fiber. Composite substrates were thus formed using different weight percentages of this fiber in the polymer matrix. Increased astrocyte adherence and PC-12 neurite density corresponded to decreasing amounts of the carbon nanofibers in the poly-carbonate urethane matrices. Controlling carbon fiber diameter may be an approach for increasing implant contact with neurons and decreasing scar tissue formation.

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