참고문헌
- Zhangming Wu, Paul M. Weaver, Gangadharan Raju, and Byung Chul Kim, "Buckling Analysis and Optimization of Variable Angle Tow Composite Plates," Thin-Walled Structures, Vol. 60, 2012, pp. 163172.
- Zhangming Wu, Paul M. Weaver, and Gangadharan Raju, "Post-buckling Optimization of Variable Angle Tow Composite Plates," Composite Structures, Vol. 103, 2013, 3442.
- Rasoul Khandan, Siamak Noroozi, Philip Sewell, John Vinney, and Mehran Koohgilani, "Optimum Design of Fibre Orientation in Composite Laminate Plates for Out-Plane Stresses," Bournemouth University, UK.
- Orifici, A.C., de Zarate Alberdi, I.O., Thomson, R.S., and Bayanor, J., "Compression and Post-buckling Damage Growth and Collapse Analysis of Flat Composite Stiffened Panels," Composite Science Technology, Vol. 68, No. 1516, 2008, pp. 315060.
- Yap, J.W.H., Scott, M.L., Thomson, R.S., and Hachenberg, D., "The Analysis of Skin-to-stiffener Debonding in Composite Aerospace Structures," Composite Structures, Vol. 57, No. 14, 2002, pp. 42535.
- Mallela, U.K. and Upadhyay, A., Thin Walled Structures, Vol. 44, 2006, pp. 354-361. https://doi.org/10.1016/j.tws.2006.03.008
- Gal, E., Levy, R., Abramovich, H., and Pavsner, P., "Buckling Analysis of Composite Panels," Composite Structures, Vol. 73, 2006, pp. 179185.
- Luca Lanzi and Vittorio Giavotto, "Post-buckling Optimization of Composite Stiffened Panels: Computations and Experiments," 20156 Milano, Italy, 10 January, 2006.
- Luca Lanzi and Vittorio Giavotto, "Post-buckling Optimization of Composite Stiffened Panels: Computations and Experiments," Composite Structures, Vol. 73, 2006, pp. 208220.
- C. Bisagni and Luca Lanzi, "Post-buckling Optimization of Composite Stiffened Panels Using Neural Networks," Composite Structures, Vol. 58, 2002, pp. 237247.
- Rikards, R., Kalnins, K., Abramovich, H., Auzins, J., Korjakins, A., Ozolinsh, O., and Kalnins, K., "Surrogate Models for Optimum Design of Stiffened Composite Shells," Composite Structures, Vol. 63, 2004, pp. 243251.
- Rikards, R., Kalnins, K., Abramovich, H., and Auzins, J., "Surrogate Modeling in Design Optimization of Stiffened Composite Shells," Composite Structures, Vol. 73, 2006, pp. 244251.
- Venkata M.K. Akula, "Multiscale Reliability Analysis of a Composite Stiffened Panel," Dassault Systems Simulia Corp., 190 Civic Circle, Lewisville, TX 75067, United States.
- Y.B. Sudhir Sastry, Pattabhi R. Budarapu, N. Madhavi, and Y. Krishna, "Buckling Analysis of Thin Wall Stiffened Composite Panels," Computational Materials Science, 2014.
- Santanu Kumar Sahoo, "Static and Buckling Analysis of Laminated Sandwich Plates with Orthotropic Core Using FEM," Department of Mechanical Engineering, National Institute of Technology, Rourkela, May 2013.
- Wu Zhehua, Lou Wenjuan, and Tang Jinchun, "Stability Analysis of the Thin Concrete Walls of the Hangzhou Grand Theater," Zhejiang University, Department of Civil Engineering, Hangzhou, 310027, People's Republic of China.
- Andre I. Khuri1 and Siuli Mukhopadhyay, "Response Surface Methodology," Advanced Review, Online Publications.
- Young-Kyoun Kim, Jae-Ok Jo, Jung-Pyo Hong, and Jin hur, "Application of Response Surface Methodology to Robust Design of BLDC Motor," KIEE International Transactions on EMECS, 12B-2, 2002, pp. 47-51.
- Weaver, P.M., "Approximate Analysis for Buckling of Compression Loaded Long Rectangular Plates with Flexural/twist Anisotropy," The Royal Society of London Proceedings, Vol. 462, No. 2065, 2006, pp. 5973.
- Qiao, P., Davalos, J.F., and Wang, J., "Local Buckling of Composite FRP Shapes by Discrete Plate Analysis," Journal of Structural Engineering, Vol. 127, No. 3, 2001, pp. 24555.
- Kollar, L.P., "Local Buckling of Fiber Reinforced Plastic Composite Structural Members with Open and Closed Cross Sections," Journal of Structural Engineering, Vol. 129, No. 11, 2003, pp. 150313.
- Mittelstedt, C. and Beerhorst, M., "Closed-form Buckling Analysis of Compressively Loaded Composite Plates Braced by Omega-stringers," Composite Structures, Vol. 88, No. 3, 2009, pp. 42435.
- Williams, J.K. and Stein, M., "Buckling Behavior and Structural Efficiency of Open Section Stiffened Composite Compression Panels," AIAA Journal, Vol. 14, No. 11, 1976, pp. 161826.
- Broderick H. Coburn, Zhangming Wu, and Paul M. Weaver, "Buckling Analysis of Stiffened Variable Angle Tow Panel," composite Structures, Vol. 111, 2014, pp. 259270.
- Park, J.H., Hwang, J.H., Lee, C.S., and Hwang, W., "Stacking Sequence Design of Composite Laminates for Maximum Strength Using Genetic Algorithms," Composite Structures, Vol. 52, 2001, pp. 17-231.
- Andrew Watson, Carol A. Featherston, and David Kennedy, "Optimization of Post-buckled Stiffened Panels with Multiple Stiffener Sizes," the 48th AIAA Structures, Structural Dynamics, and Materials Conference.
- Jeff W.H. Yap, Murray L. Scott, Rodney S. Thomson, and Dieter Hachenberg, "The Analysis of Skin-to-stiffener Debonding in Composite Aerospace Structures," Composite Structures, Vol. 57, 2002, pp. 425435.
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