تحلیل ارتعاشات پوسته مخروطی ساندویچی کامپوزیت با شرایط مرزی مختلف با استفاده از روش‌های المان محدود و مربعات دیفرانسیلی (DQ)

[1]  Qatu M.S., "Recent research advances in the dynamic behavior of shells: part 1. Laminated composite shells", Appl Mech Rev, v. 55, n. 4, pp. 325–50, 2002.

[2]  Qatu M.S., "Vibration of laminated shells and plates", Oxford: Elsevier; 2004.

[3]  فرشید اله­کرمی، مریم قصاب­زاده سریزدی،
"تحلیل ارتعاشات آزاد پوسته استوانه­ای نازک و نسبتاً ضخیم مدرج تابعی دو جهته براساس تئوری مرتبه اول تغییر شکل برشی"، مجله علمی پژوهشی دانشگاه تبریز، جلد 46، شماره 1، صفحه 28-15، بهار 1395.

[4]  Garg A.K., Khare R.K., and Kant T., "Higher-order closed-form solutions for free vibration of laminated composite and sandwich shells", J Sandwich Struct Mater, v. 8, pp. 205–35, 2006.

[5]  Lopatin A.V., and Morozov E.V., "Buckling of the composite orthotropic clamped–clamped cylindrical shell loaded by transverse inertia forces", Compos Struct, v. 95, pp. 471–8, 2013.

[6]  Khare R.K, Rode V., Garg A.K., and John S.P.H., "Higher-order closed-form solutions for thick laminated sandwich shells", J Sandwich Struct Mater, v. 7, pp. 335–58, 2005.

[7]  An C., Duan M., and Estefen S.F., "Collapse and buckle propagation of sandwich pipes: a review", In: Proceedings of the ASME 2013 32nd international conference on ocean, offshore and arctic engineering, June 8–14, Nantes, France, 2013.

[8]  Arjomandi K., and Taheri F., "Elastic buckling capacity of bonded and unbonded sandwich pipes under external hydrostatic pressure", J Mech Mater Struct, v. 5, n. 3, pp. 391–407, 2010.

[9]  Arjomandi K., and Taheri F., "Stability and post-buckling response of sandwich pipes under hydrostatic external pressure", Int J Press Vessels Pip, v. 88, pp. 138–48, 2011.

[10]             Ohga M., Wijenayaka A.S., and Croll J.G.A., "Reduced stiffness buckling of sandwich cylindrical shells under uniform external pressure", Thin-Walled Struct, v. 43, pp. 1188–201, 2005.

[11]             Wilkins, JR D. J., Bert C.W., and Egle D.M., "Free vibrations of orthotropic sandwich conical shells with various boundary conditions", J. Sound Vib. 13, 211-228, 1970.

[12]             Kardomateas G.A., and Simitses G.J., "Buckling of long sandwich cylindrical shells under external pressure", J Appl Mech, v. 72, pp. 493–9, 2005.

[13]             Han J.H., Kardomateas G.A., and Simitses G.J., "Elasticity shell theory and finite element results for the buckling of long sandwich cylindrical shells under external pressure", Composites: Part B, v. 35, pp. 591–8, 2004.

[14]             Irie T., Yamada G., and Kaneko Y., "Natural frequencies of truncated conical shells", Journal of Sound and Vibration, Vol. 92, No. 3, pp. 447–453, 1984.

[15]             Ng, T.Y., Hua, L., and Lam, K.Y., "Generalized differential quadrature for free vibration of rotating composite laminated conical shell with various boundary conditions" Int. J. Mech. Sci. 45, 567–587, 2003.

[16]             Xiang X., Guoyong J., Tiangui Y., and Zhigang L., "Free vibration analysis of functionally graded conical shells and annular plates using the Haar wavelet method", Applied Acoustics, 85, 130–142, 2014.