References
- Yun-Jung Jang, Ji-Won Jin, Ki-Weon Kang, "Structural Optimization considering Stress and Weight for Wind Turbine Composite Blade", Journal of The Korean Society of Mechanical Engineers, pp.19-20, April 2017
- Ji-Hyun Lee, Sung-Young Moon, Yeon-Seung Lee, Young-Gyun Kim, "Weight Reduction Optimization for 5MW Offshore Wind Turbine Blade using Carbon Fiber", Journal of Wind Energy, Volume 3, Issue 1, pp.27-35, 2012
- Chan-Woong Choi, Ji-Won Jin, Ki-Weon Kang, "Structural Optimization for Small Scale Vertical-Axis Wind Turbine Blade using Response Surface Method", Journal of The Korean Society of Mechanical Engineers, pp.22-27, August 2013
- Chang-Duck Kong, Min-Woong Kim, Hyun-Bum Park, "Study on Aerodynamic and Structural Design of High Efficiency and Lightweight Composite Blades of 1MW Class HAWT", Journal of The Korean Society for Aeronautical and Space Sciences, pp.769-773, November 2011.
- Hyung-il Kwon, Dong-Ok Ryu, Ju-Youl Yoo, Oh-Jun Kwon, "Aerodynamic Sectional Design Optimization of Wind Turbine Rotor Blade Considering Elastic Structural Deformation", Journal of TThe Korean Society For Aeronautical And Space Sciences, pp.1276-1283, November 2011
- Jun-Woo Choi, Hyeon-U Heo, Kwang-Won Kim, Doo-Man Kim, "Analysis of Wind Turbine Blade Deformation for Cross Section Shapes", Journal of The Korean Society for Fluid Machinery, pp.98-103, November 2012
- Myung-Chan Cha, Sang-Woo Kim, Min-Soo Jeong, In Lee, Seung-Jae Yoo, Cheon-Jin Park, "FThickness Optimization for Spar Cap of Composite Tidal Current Turbine Blade using SQP Method", Journal of Composites Research, Volume 26, Issue 4, pp.207-212, 2013 https://doi.org/10.7234/composres.2013.26.4.207
- Dong-hoon Kim, Yoo-jeong Noh, Eun-Ho Choi, O-Kang Lim, Jin-Rae Cho, "Fluid-Structure Interaction Analysis of 5-MW Wind Turbine Blades", Journal of The Korean Society of Mechanical Engineers, pp.313-314, April 2014
- http://blades.windnovation.com
- ECSS, "Spacecraft mechanical loads analysis handbook", ECSS-E-HB-32-26A, 2013
- Puck, A. & Schurmann, H., "Failure Analysis of FRP Laminates by Means of Physically based Phenomenological Models", Composites Science and Technology, 58, pp.1045-1067. 1998 https://doi.org/10.1016/S0266-3538(96)00140-6
- Puck, A. & Schurmann, H., "Failure Analysis of FRP Laminates by Means of Physically based Phenomenological Models", Composites Science and Technology, 62, pp.1633-1662. 2002 https://doi.org/10.1016/S0266-3538(01)00208-1