Research Article
Year 2017,
Volume: 17 Issue: 3, 1136 - 1145, 29.12.2017
Abstract
Boyutsal kararlı malzemelerin tasarımı, teleskop, uydu gibi uzay ve havacılık yapıları için önemli bir konudur. Bu bağlamda, tabakalı kompozit malzemeler uzay yapıları gerekliliklerini matematiksel optimizasyon metotlarının kullanımı ile karşılayabilir hale gelmektedir. Bu çalışmanın amacı, düşük ısıl genleşme katsayısı ve yüksek elastisite modülüne sahip boyutsal kararlı, simetrik-balans tabakalı kompozit plakaların optimum açı dizilimlerini elde etmektir. Bu proses tek ve çok amaçlı optimizasyon yaklaşımları ile Genetik Algoritma metodu kullanılarak gerçekleştirilmiştir. Kompozit plaka tasarım problemlerinde karbon ve E-glass epoksi malzemeler kullanılmıştır. Elde edilen sonuçlar geleneksel tasarımlar ([± 45]S, ([0/90]S ) ile kıyaslanmış ve optimum olanların ısıl genleşme katsayısının daha düşük ve aynı zamanda elastisite modülünün daha yüksek olduğu görülmüştür.
References
- Aydin L., 2011. Design of dimensionally-stable laminated composites subjected to hygro-thermo-mechanical loading by stochastic optimization methods, Doktora Tezi, İzmir Yüksek Teknoloji Enstitüsü, Fen Bilimleri Enstitüsü, İzmir, 171.
- Aydin L., Artem H.S., 2011. Comparison of stochastic search optimization algorithms for the laminated composites under mechanical and hygrothermal loadings. Journal of Reinforced Plastics Composites, 30(14), 1197–1212.
- Aydin L., Artem H.S., 2010. Single and multi-objective genetic algorithm optimizations of the laminated composites used in satellite structures. Proceedings of the International Symposium of Mechanism and Machine Science, 219-226, 5-8 October.
- Aydin L., Aydin O., Artem H.S., Mert A., 2016. Design of dimensionally stable composites using efficient global optimization method. Proceedings of the Institution of Mechanical Engineers. Part L, Journal of Materials: Design and Applications, DOI: 10.1177/1464420716664921
- Aydin L., Uğural B.K., Özdoğan E., 2015. Design of dimensionally stable flax/polypropylene composite plate by using stochastic optimization. International polymeric composite symposium, exhibition and brokerage event, Izmir.
- Bressan F., De Bona F., Soma A., 2004. Design of composite laminates with low thermal expansion. Proc IMechE, Part L: Journal of Materials: Design and Applications, 218, 201–209.
- Diaconu C.G., Sekine H., 2003. Flexural characteristics and layup optimization of laminated composite plates under hygrothermal conditions using lamination parameters. Journal of Thermal Stresses, 26, 905–922.
- Ghiasi H., Fayazbakhsh K., Pasini D., Lessard L., 2010. Optimum stacking sequence design of composite materials Part II: Variable stiffness design. Composite Structure, 93(1), 1-13.
- Hasancebi O., Carbas S., Dogan E., Erdal F., Saka M. P., 2010. Comparison of non-deterministic search techniques in the optimum design of real size steel frames. Computers & Structures, 88, 1033-1044.
- Kaw, A. K. (2006). Mechanics of composite materials 2nd. Optics Express
- Khalil M., Bakhiet E., El-Zoghby A., 2001. Optimum design of laminated composites subjected to hygrothermal residual stresses. Proceedings of the Institution of Mechanical Engineers. Part F, Journal of rail and rapid transit, 215, 175-186.
- Le Rich R., Gaudin J., 1998. Design of dimensionally stable composites by evolutionary optimization. Composite Structure, 41, 97-111.
- Rangarajan A., D’Mello R.J., Sundararaghavan V., Waas A.M., 2011. Minimization of thermal expansion of symmetric, balanced, angle ply laminates by optimization of fiber path configurations. Composite Science and Technology, 71, 1105–1109.
- Vosoughi A.R., Forkhorji D.H., Roohbakhsh H., 2016. Maximum fundamental frequency of thick laminated composite plates by a hybrid optimization method. Composites Part B: Engineering, 86, 254-260.
- Zhang Z., Zhong W., Song H., 1996. Design of hybrid composites with zero coefficient of thermal expansion. Journal of Materials Science and Technology,12, 241–248.
- Zhu R.P., Sun C.T., 2003. Effects of fiber orientation and Elastic constants on coefficients of thermal expansion in laminates. Mechanics of Advanced Materials and Structures,10, 99-107.
- http://www.ist.edu.pk/Process.aspx?CTRL=19e62cc6-08e7-45d2-a3c7-95051b8479ed&CDF_ID=578d22e5-3495-4116-b8a8-b7f76c6b2ced&DL=Y (25.09.2017)
Year 2017,
Volume: 17 Issue: 3, 1136 - 1145, 29.12.2017
Abstract
References
- Aydin L., 2011. Design of dimensionally-stable laminated composites subjected to hygro-thermo-mechanical loading by stochastic optimization methods, Doktora Tezi, İzmir Yüksek Teknoloji Enstitüsü, Fen Bilimleri Enstitüsü, İzmir, 171.
- Aydin L., Artem H.S., 2011. Comparison of stochastic search optimization algorithms for the laminated composites under mechanical and hygrothermal loadings. Journal of Reinforced Plastics Composites, 30(14), 1197–1212.
- Aydin L., Artem H.S., 2010. Single and multi-objective genetic algorithm optimizations of the laminated composites used in satellite structures. Proceedings of the International Symposium of Mechanism and Machine Science, 219-226, 5-8 October.
- Aydin L., Aydin O., Artem H.S., Mert A., 2016. Design of dimensionally stable composites using efficient global optimization method. Proceedings of the Institution of Mechanical Engineers. Part L, Journal of Materials: Design and Applications, DOI: 10.1177/1464420716664921
- Aydin L., Uğural B.K., Özdoğan E., 2015. Design of dimensionally stable flax/polypropylene composite plate by using stochastic optimization. International polymeric composite symposium, exhibition and brokerage event, Izmir.
- Bressan F., De Bona F., Soma A., 2004. Design of composite laminates with low thermal expansion. Proc IMechE, Part L: Journal of Materials: Design and Applications, 218, 201–209.
- Diaconu C.G., Sekine H., 2003. Flexural characteristics and layup optimization of laminated composite plates under hygrothermal conditions using lamination parameters. Journal of Thermal Stresses, 26, 905–922.
- Ghiasi H., Fayazbakhsh K., Pasini D., Lessard L., 2010. Optimum stacking sequence design of composite materials Part II: Variable stiffness design. Composite Structure, 93(1), 1-13.
- Hasancebi O., Carbas S., Dogan E., Erdal F., Saka M. P., 2010. Comparison of non-deterministic search techniques in the optimum design of real size steel frames. Computers & Structures, 88, 1033-1044.
- Kaw, A. K. (2006). Mechanics of composite materials 2nd. Optics Express
- Khalil M., Bakhiet E., El-Zoghby A., 2001. Optimum design of laminated composites subjected to hygrothermal residual stresses. Proceedings of the Institution of Mechanical Engineers. Part F, Journal of rail and rapid transit, 215, 175-186.
- Le Rich R., Gaudin J., 1998. Design of dimensionally stable composites by evolutionary optimization. Composite Structure, 41, 97-111.
- Rangarajan A., D’Mello R.J., Sundararaghavan V., Waas A.M., 2011. Minimization of thermal expansion of symmetric, balanced, angle ply laminates by optimization of fiber path configurations. Composite Science and Technology, 71, 1105–1109.
- Vosoughi A.R., Forkhorji D.H., Roohbakhsh H., 2016. Maximum fundamental frequency of thick laminated composite plates by a hybrid optimization method. Composites Part B: Engineering, 86, 254-260.
- Zhang Z., Zhong W., Song H., 1996. Design of hybrid composites with zero coefficient of thermal expansion. Journal of Materials Science and Technology,12, 241–248.
- Zhu R.P., Sun C.T., 2003. Effects of fiber orientation and Elastic constants on coefficients of thermal expansion in laminates. Mechanics of Advanced Materials and Structures,10, 99-107.
- http://www.ist.edu.pk/Process.aspx?CTRL=19e62cc6-08e7-45d2-a3c7-95051b8479ed&CDF_ID=578d22e5-3495-4116-b8a8-b7f76c6b2ced&DL=Y (25.09.2017)
There are 17 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | December 29, 2017 |
| Submission Date | April 6, 2017 |
| Published in Issue | Year 2017 Volume: 17 Issue: 3 |