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Chemical vapour infiltration of pyrolytic carbon : an electron spin resonance analysis

Chemical vapour infiltration of pyrolytic carbon : an electron spin resonance analysis

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DRESCHER, Malte, Moez GUELLALI, Klaus J. HÜTTINGER, Elmar DORMANN, 2004. Chemical vapour infiltration of pyrolytic carbon : an electron spin resonance analysis. In: Synthetic Metals. 142(1-3), pp. 13-19. ISSN 0379-6779. eISSN 1879-3290. Available under: doi: 10.1016/S0379-6779(03)00415-6

@article{Drescher2004-04Chemi-40091, title={Chemical vapour infiltration of pyrolytic carbon : an electron spin resonance analysis}, year={2004}, doi={10.1016/S0379-6779(03)00415-6}, number={1-3}, volume={142}, issn={0379-6779}, journal={Synthetic Metals}, pages={13--19}, author={Drescher, Malte and Guellali, Moez and Hüttinger, Klaus J. and Dormann, Elmar} }

Dormann, Elmar 2004-04 Guellali, Moez 2017-09-15T13:21:12Z Hüttinger, Klaus J. Dormann, Elmar Guellali, Moez 2017-09-15T13:21:12Z Drescher, Malte eng A carbon fibre felt with a fibre volume fraction of 7% was densified by chemical vapour infiltration of pyrolytic carbon from methane at about 1100 °C using an isothermal, isobaric process. Specimens of 1 mm<sup>3</sup> size were cut out and analysed by electron spin resonance (ESR) in as-infiltrated form and after annealing at 2200 or 2900 °C. The temperature and orientation dependence of ESR line shape, width, intensity, and g-tensor are derived. Preferred orientation and degree of graphitisation of the deposited pyrolytic carbon are discussed. Drescher, Malte Hüttinger, Klaus J. Chemical vapour infiltration of pyrolytic carbon : an electron spin resonance analysis

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