Your search keyword '"Onur Kas"' showing total 4 results

1. Effects of Injection Pressure in Resin Transfer Moulding (RTM) of Woven Carbon Fibre/Epoxy Composites

Author

Cevdet Kaynak and Y. Onur Kas

Subjects

Materials science, Polymers and Plastics, Flexural strength, Transfer molding, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Izod impact strength test, Epoxy, Composite material, Porosity, Injection pressure

Abstract

RTM (Resin Transfer Moulding) is a closed mould process in which matrix resin is injected into a mould filled with a fibre preform. There are many RTM process parameters influencing the quality of the final product. The objective of this work was to study resin injection pressure. For this purpose, an amine curing epoxy resin was injected, using a small laboratory size RTM machine, into a flat mould filled with woven carbon fibre layers. Five different resin injection pressure levels; 1, 2, 3, 4, and 5 atm (101, 203, 304, 405, and 506 kPa) were used to produce composite sample plates. Specimens for mechanical testing and microscopic examination were extracted from various parts of the plates. Generally, it was observed that an injection pressure level of 2 atm (203 kPa) resulted in the best mechanical performance in the specimens, mainly due to better fibre impregnation by the uniform resin flow, minimising void formation. Increasing the resin injection pressure level above 2 atm (203 kPa) resulted in differences between “macroflow” (around fibre bundles) and “microflow” (through the fibres) leading to non-uniform resin flow and void formation, hence a reduction in the mechanical properties.

Published

2006

2. Ultrasonic (C-scan) and microscopic evaluation of resin transfer molded epoxy composite plates

Author

Cevdet Kaynak and Y. Onur Kas

Subjects

Materials science, Polymers and Plastics, Transfer molding, Organic Chemistry, Ultrasonic testing, Composite number, Epoxy, medicine.disease_cause, law.invention, law, Transfer (computing), visual_art, Mold, visual_art.visual_art_medium, medicine, Ultrasonic sensor, Composite material, Electron microscope

Abstract

One of the main problem in resin transfer molding (RTM) is the formation of microvoids decreasing the mechanical performance of the components. In this study, an ultrasonic inspection method (C-scan) was used to evaluate these microvoids. Composite sample plates were produced by a small laboratory size RTM machine injecting epoxy resin into a flat mold filled with woven carbon fiber layers. In C-scan analysis a certain value of energy loss (dB loss) was selected as the ‘operator set level’ and further dB losses were considered as ‘defect’ or ‘microvoid’. C-scan inspection indicated that increasing injection pressure above 2 atm increases the number of microvoids leading to decreased mechanical properties. In the second part of this study, optical and electron microscopy were used to examine these microvoids and also failure mechanisms of the samples.

Published

2005

3. Chemically Reactive Peptides for the Production of Electroactive Conjugates of Specified Conformation and Side-Chain Placement

Author

Manoj Charati, Onur Kas, Mary E. Galvin, and Kristi L. Kiick

Published

2008

4. Polymer Biocatalysis and Biomaterials II

Author

H. N. Cheng, Richard A. Gross, Manoj Charati, Onur Kas, Mary E. Galvin, Kristi L. Kiick, Peter James Baker, Jennifer S. Haghpanah, Jin Kim Montclare, David Silvestri, Caterina Cristallini, Niccoletta Barbani, Atanu Biswas, R. L. Shogren, J. L. Willet, Sevim Z. Erhan, L. Jong, Ivan Gitsov, Arsen Simonyan, Albert Krastanov, Stuart Tanenbaum, Lei Li, You-Lo Hsieh, Feng He, Bo Chen, Elizabeth M. Miller, Lisa Miller, John J. Maikner, M. Elizabeth Miller, Anil Mahapatro, Yoshihiro Ito, Hiroshi Abe, Akira Wada, Mingzhe Liu, Matthijs de Geus, Anja R. A. Palmans, Christopher J. Duxbury, Silvia Villarroya, Steven M. Howdle, Andreas Heise, Bart A. C. van As, Jeroen van Buijtenen, E. W. Meijer, Asato Kondo, Satoko Sugihara, Kohei Okamoto, Yota Tsuneizumi, Kazunobu Toshima, Shuichi Matsumura, Mo Hunsen, Abul Azim, Harald Mang, Sabine R. Wallner, Asa Ronkvist, Wenchun Xie, Jun Hu, Wei Gao, Ankur Kulshrestha, Himanshu Azim, Alex Dekhterman, Zhaozhong Jiang, Geng Li, Alankar Vaidya, Qu-Ming Gu, W. W. Maslanka, Akira Makino, Shiro Kobayashi, Yalong Zhang, Jinhua Wang, C, H. N. Cheng, Richard A. Gross, Manoj Charati, Onur Kas, Mary E. Galvin, Kristi L. Kiick, Peter James Baker, Jennifer S. Haghpanah, Jin Kim Montclare, David Silvestri, Caterina Cristallini, Niccoletta Barbani, Atanu Biswas, R. L. Shogren, J. L. Willet, Sevim Z. Erhan, L. Jong, Ivan Gitsov, Arsen Simonyan, Albert Krastanov, Stuart Tanenbaum, Lei Li, You-Lo Hsieh, Feng He, Bo Chen, Elizabeth M. Miller, Lisa Miller, John J. Maikner, M. Elizabeth Miller, Anil Mahapatro, Yoshihiro Ito, Hiroshi Abe, Akira Wada, Mingzhe Liu, Matthijs de Geus, Anja R. A. Palmans, Christopher J. Duxbury, Silvia Villarroya, Steven M. Howdle, Andreas Heise, Bart A. C. van As, Jeroen van Buijtenen, E. W. Meijer, Asato Kondo, Satoko Sugihara, Kohei Okamoto, Yota Tsuneizumi, Kazunobu Toshima, Shuichi Matsumura, Mo Hunsen, Abul Azim, Harald Mang, Sabine R. Wallner, Asa Ronkvist, Wenchun Xie, Jun Hu, Wei Gao, Ankur Kulshrestha, Himanshu Azim, Alex Dekhterman, Zhaozhong Jiang, Geng Li, Alankar Vaidya, Qu-Ming Gu, W. W. Maslanka, Akira Makino, Shiro Kobayashi, Yalong Zhang, Jinhua Wang, and C

Subjects

Polymer biocatalysis, Biomaterials, Enzymes--Biotechnology--Congresses, Biocatalysis--Congresses, Polymers--Biotechnology--Congresses, Biomedical materials--Congresses, Polymers, Biocompatible Materials, Biocatalysis

Published

2008