Pyrolysis of wood-based polymer compounds

Pyrolysis of wood-based polymer compounds

Due to increasing costs of synthetic polymers or plastics, which are directly correlated with the oil and gas prices, natural polymers with similar properties are becoming more and more interesting. One such product is a commercially available wood-based compound Arboform ® composed largely of ligni...

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Bibliographic Details
Published in:Journal of analytical and applied pyrolysis Vol. 87; no. 1; pp. 124 - 128
Main Authors: Haensel, Thomas, Comouth, Andreas, Zydziak, Nicolas, Bosch, Eva, Kauffmann, Axel, Pfitzer, Juergen, Krischok, Stefan, Schaefer, Juergen A., Ahmed, Syed Imad-Uddin
Format: Journal Article
Language:English
Published: Elsevier B.V 2010
Subjects:
Carbon
Carbon fibre
Cellulose
Conductivity
EELS
Graphite
Injection moulding
Lignin
Polymers
Pyrolysis
SEM
sp 2
Spectroscopy
XPS
Pyrolysis
Spectroscopy
Lignin
EELS
Cellulose
Conductivity
Carbon
Injection moulding
Graphite
Carbon fibre
XPS
SEM
sp 2
Polymers
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Summary:Due to increasing costs of synthetic polymers or plastics, which are directly correlated with the oil and gas prices, natural polymers with similar properties are becoming more and more interesting. One such product is a commercially available wood-based compound Arboform ® composed largely of lignin and cellulose. From these two materials, lignin is largely a byproduct of the paper industry, and normally used as a fuel. This material has the property of being able to be injection moulded into complex structures. Additions of carbon fibres to this mixture increase the form stability and the electrical conductivity. The pyrolysis of this material can form conducting materials. Thus, this material can also be used as a low-cost alternative to complex, conducting and non-oxidising components. A chemical and structural analysis with surface sensitive methods (XPS, EELS, and SEM) was performed to understand the pre- and post-pyrolysed material. Results show that pyrolysis increases the graphitic content and conductivity of the wood-based polymer compound. Furthermore, an anisotropic conductivity dependent on carbon fibre alignment in the compound was also observed.
ISSN:0165-2370
1873-250X
DOI:10.1016/j.jaap.2009.10.013