Effects of temperature and plasma treatment on mechanical properties of ceramic fibres

• Autorzy: Xiem N. T. , Kroisová D. , Louda P. , Hung T. D. , Rozek Z.
• Języki publikacji: EN

Abstrakty

EN

Purpose: The aim of this study is an investigation and comparison of mechanical properties of ceramic fibres after they were influenced by temperature and plasma treatment. Design/methodology/approach: Single filament after being processed at different temperatures (200oC, 400oC, 700oC and 1000oC) and methane plasma treatment was separated with a magnifier, prepared on a punched mounting tab, and was evaluated in accordance with Japanese Industrial Standard. Findings: Preliminary results of the improvement in tensile strength, Young’s modulus, elongation of ceramic fibres after plasma treatment are studied in this paper. Research limitations/implications: The samples were tested for optimized parameters of plasma modification and optimized parameters of plasma to ceramic fibres curing. There was not enough time to test the adhesion between Geopolymer matrices and ceramic fibres. Practical implications: In the future, our work will be focused on optimization of parameters for plasma modification of fibres made of different materials and applying this method to improve the fibre and Geopolymer matrix adhesion. Originality/value: The value of this work is defined by the influence of plasma treatment parameters on quality, mechanical properties of ceramic fibres and increasing the adhesion between matrices and reinforcements.

Słowa kluczowe

EN

composite; engineering polymer; biomaterials; aramid; silicone

PL

kompozyt; polimer inżynierski; biomateriał; aramid; krzem

• Wydawca: International OCSCO World Press
• Czasopismo: Journal of Achievements in Materials and Manufacturing Engineering
• Rocznik: 2009
• Tom: Vol. 37, nr 2
• Strony: 526--531
• Opis fizyczny: Bibliogr. 9 poz., rys., tabl.

Twórcy

autor

Xiem N. T.

autor

Kroisová D.

autor

Louda P.

autor

Hung T. D.

autor

Rozek Z.

• Department of Material Science, Faculty of Mechanical Engineering, The Technical University of Liberec, Studentská 2, 461 17 Liberec, Czech Republic,

Bibliografia

• [1] T. D. Hung, D. Kroisová, O. Bortnovsky, P. Louda, N. T. Xiem, Preliminary abilities of thermal sustainment of composites based on geopolymer matrices, Book of Abstracts of 3rd International Conference on Vacuum and Plasma Surface Engineering. Liberec, Technical University of Liberec, 2008.
• [2] Translated and Published by Japanese Standards Association, JIS R 7601 - Japanese Industrial Standard - Testing Methods for Carbon Fibbers, Japan, 1986.
• [3] Ceramic Fibbers (Respirable Size), Reasonably anticipated to be a human carcinogen, First Listed in the Seventh Annual Report on Carcinogens, 1994.
• [4] Narottam P. Pansal, Handbook of ceramic composites, Kluwer academic publishers, USA, 2005.
• [5] http://www.directindustry.com/prod/3m-manufacturing-and-industry-ceramics/ceramic-fiber-17950-39618.html, accessed: 10/9/2009.
• [6] I. Niewiadomska, K. Przybył, Plasma method in textiles, Book of Abstracts of 15th International Conference, Structure and Structural Mechanics of Textiles, Organized by Faculty of Textile Engineering, Technical University of Liberec, Czech Republic.
• [7] S. M. Rossnagle, J. J. Cuomo, W. D. Westwood, Handbook of plasma processing technology, 1990.
• [8] Y. Seki, K. Sever, M. Sarikanat, H. A. Gülec, I. H. Tavman, The influence of oxygen plasma treatment of jute fibres on mechanical properties of jute fibre reinforced thermoplastic composites, Proceedings of the 5th International Advanced Technologies Symposium (IATS’09), 2009, Karabuk, Turkey.
• [9] V. Chirila, G. Margineana, W. Brandl, Effect of the oxygen plasma treatment parameters on the carbon nanotubes surface properties, Surface & Coatings Technology 200 (2005) 548-551.