Kenevir Liflerinin Konvansiyonel ve Mikrodalga Yöntemine Göre Maleik Anhidrit İle Yüzey Modifikasyonu
Year 2012,
Volume: 11 Issue: 22, 71 - 78, 01.12.2012
Nigar Merdan
Dilara Koçak
Kamil Acar
References
- Adamsen, A.P.S., Akin, D.E., Rigsby, L.L., (2002), “Chelating Agents and Enzyme Retting of Flax”, Textile Research Journal, 72, 4, 296-302.
- Bessadok A., S. Roudesli,S. Marais,N. Follain, L. Lebrun,” Alfa fibres for unsaturated polyester composites reinforcement: Effects of chemical treatments on mechanical and permeation properties” Composites Part A: Applied Science and Manufacturing Volume 40, Issue 2, February 2009, Pages 184–195
- Bel-Berger, P., Von Hoven, T., Ramaswamy, G.N., Kimmel, L., Boylston,E., (1999), “Cotton / Kenaf Fabrics: a Viable Natural Fabric”, Journal of Cotton Science, 3, 2, 55-65.
- Bledzki, A.K., Mamun A.A., Jaszkiewicz A., Et Al., (2010), “Polypropylene composites with enzyme modified abaca fibre”, Composites Science and Technology, 70, 5, 854-860.
- Bourmaud, A., Baley, C., (2007), “Investigations on the Recycling of Hemp and Sisal Fibre Reinforced Polypropylene Composites”, Polymer Degradation and Stability, 92, 6, 1034–1045.
- FOULK, J.A., CHAO, W.Y., AKİN, D.E., DODD, R.B. And LAYTON, P.A., (2004), “Enzyme-retted flax fiber and recycled polyethylene composites”, Journal of Polymers and the Environment, 12, 3, 165–171.
- Gao, Y. and Ma, Y., (2004), “The Performance of Hemp Fiber and Its Applications”, Beijing Textile, 6, 30–31.
- HU, R.H. And LİM, J.K., (2005), “Natural Fiber Reinforced Composites and Their Applications in Automobile Industry”, Proceedings of 2005 International Conference on Mechanical and Automobiles, Jeonju, Korea, 255–260.
- Jiang, A., Xi, J., Wu, H., (2012), “Effect of Surface Treatment on The Morphology of Sisal Fibers in Sisal/Polylactic Acid Composites”, Journal of Reinforced Plastics and Composites,May 2012, 31, 621-630.
- KUSHWAHA, P.K. And KUMAR, R., (2011), “Influence of Chemical Treatments on The Mechanical and Water Absorption Properties of Bamboo Fiber Composites”, Journal of Reinforced Plastics and Composites, 30, 1, 73-85.
- Lee, S.H., Wang, S.Q., (2006), “Biodegradable Polymers / Bamboo Fiber Biocomposite with Bio-Based Coupling Agent Composites Part A”, Applied Science and Manufacturing, 37, 1, 80-91.
- Merdan N., Sancak E., Kocak D., et al., (2012), “Effect of Applied Different Surface Modification Processes with Cellulose Enzyme on Properties of Luffa Fibres”, Asian Journal of Chemistry, 24, 3, 975-980.
- Michael A. Fuqua Shanshan Huo & Chad A. ULVEN (2012): Natural Fiber Reinforced Composites, Polymer Reviews, 52:3-4, 259-320.
- Mohanty, S. And Nayak, S.K., (2006), “Mechanical and Rheological Characterization of Treated Jute-HDPE Composites with a Different Morphology”, Journal of Reinforced Plastics and Composites, 25, 13, 1419-1439.
- Padmavathi, T., Naidu, S.V., Rao, R.M.V.G.K., (2012), “Studies on Mechanical Behavior of Surface Modified Sisal Fibre – Epoxy Composites”, Journal of Reinforced Plastics and Composites, 31, 8, 519-532.
- Sever, K., (2010), “The Improvement of Mechanical Properties of Jute Fiber/LDPE Composites by Fiber Surface Treatment”, Journal of Reinforced Plastics and Composites, 29, 13, 1921-1929.
- Xuehong, R., Buschle-Diller, G., (2007), “Oxidoreductases for Modification of Linen Fibers, Colloids and Surfaces A”, Physicochemical and Engineerıng Aspects, 299, 1-3, 15-21.
- Yuanjian, T., Isaac, D.H., (2007), “Impact and Fatigue Behaviour of Hemp Fibre Composites”, Composites Science and Technology, 67, 15-16, 3300–3307.
Kenevir Liflerinin Konvansiyonel ve Mikrodalga Yöntemine Göre Maleik Anhidrit İle Yüzey Modifikasyonu
Year 2012,
Volume: 11 Issue: 22, 71 - 78, 01.12.2012
Nigar Merdan
Dilara Koçak
Kamil Acar
Abstract
Mikrodalga yöntemi tekstil yaş işlemleri için oldukça yeni bir yöntemdir. Bu yöntemin düşük enerji tüketimi ile hızlı ve kısa işlem süresi gibi bazı avantajları vardır. Bu çalışmada %2.5, %5 ve %10 konsantrasyonunda maleik anhidrit ile kenevir lifleri işleme tabi tutulmuştur. Kenevir liflerinin maleik anhidrit ile işleminde konvansiyonel ve mikrodalga yöntemleri kullanılmıştır. İşlem görmüş kenevir liflerinin kopma dayanımı ve uzama değerleri araştırılmıştır
References
- Adamsen, A.P.S., Akin, D.E., Rigsby, L.L., (2002), “Chelating Agents and Enzyme Retting of Flax”, Textile Research Journal, 72, 4, 296-302.
- Bessadok A., S. Roudesli,S. Marais,N. Follain, L. Lebrun,” Alfa fibres for unsaturated polyester composites reinforcement: Effects of chemical treatments on mechanical and permeation properties” Composites Part A: Applied Science and Manufacturing Volume 40, Issue 2, February 2009, Pages 184–195
- Bel-Berger, P., Von Hoven, T., Ramaswamy, G.N., Kimmel, L., Boylston,E., (1999), “Cotton / Kenaf Fabrics: a Viable Natural Fabric”, Journal of Cotton Science, 3, 2, 55-65.
- Bledzki, A.K., Mamun A.A., Jaszkiewicz A., Et Al., (2010), “Polypropylene composites with enzyme modified abaca fibre”, Composites Science and Technology, 70, 5, 854-860.
- Bourmaud, A., Baley, C., (2007), “Investigations on the Recycling of Hemp and Sisal Fibre Reinforced Polypropylene Composites”, Polymer Degradation and Stability, 92, 6, 1034–1045.
- FOULK, J.A., CHAO, W.Y., AKİN, D.E., DODD, R.B. And LAYTON, P.A., (2004), “Enzyme-retted flax fiber and recycled polyethylene composites”, Journal of Polymers and the Environment, 12, 3, 165–171.
- Gao, Y. and Ma, Y., (2004), “The Performance of Hemp Fiber and Its Applications”, Beijing Textile, 6, 30–31.
- HU, R.H. And LİM, J.K., (2005), “Natural Fiber Reinforced Composites and Their Applications in Automobile Industry”, Proceedings of 2005 International Conference on Mechanical and Automobiles, Jeonju, Korea, 255–260.
- Jiang, A., Xi, J., Wu, H., (2012), “Effect of Surface Treatment on The Morphology of Sisal Fibers in Sisal/Polylactic Acid Composites”, Journal of Reinforced Plastics and Composites,May 2012, 31, 621-630.
- KUSHWAHA, P.K. And KUMAR, R., (2011), “Influence of Chemical Treatments on The Mechanical and Water Absorption Properties of Bamboo Fiber Composites”, Journal of Reinforced Plastics and Composites, 30, 1, 73-85.
- Lee, S.H., Wang, S.Q., (2006), “Biodegradable Polymers / Bamboo Fiber Biocomposite with Bio-Based Coupling Agent Composites Part A”, Applied Science and Manufacturing, 37, 1, 80-91.
- Merdan N., Sancak E., Kocak D., et al., (2012), “Effect of Applied Different Surface Modification Processes with Cellulose Enzyme on Properties of Luffa Fibres”, Asian Journal of Chemistry, 24, 3, 975-980.
- Michael A. Fuqua Shanshan Huo & Chad A. ULVEN (2012): Natural Fiber Reinforced Composites, Polymer Reviews, 52:3-4, 259-320.
- Mohanty, S. And Nayak, S.K., (2006), “Mechanical and Rheological Characterization of Treated Jute-HDPE Composites with a Different Morphology”, Journal of Reinforced Plastics and Composites, 25, 13, 1419-1439.
- Padmavathi, T., Naidu, S.V., Rao, R.M.V.G.K., (2012), “Studies on Mechanical Behavior of Surface Modified Sisal Fibre – Epoxy Composites”, Journal of Reinforced Plastics and Composites, 31, 8, 519-532.
- Sever, K., (2010), “The Improvement of Mechanical Properties of Jute Fiber/LDPE Composites by Fiber Surface Treatment”, Journal of Reinforced Plastics and Composites, 29, 13, 1921-1929.
- Xuehong, R., Buschle-Diller, G., (2007), “Oxidoreductases for Modification of Linen Fibers, Colloids and Surfaces A”, Physicochemical and Engineerıng Aspects, 299, 1-3, 15-21.
- Yuanjian, T., Isaac, D.H., (2007), “Impact and Fatigue Behaviour of Hemp Fibre Composites”, Composites Science and Technology, 67, 15-16, 3300–3307.