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Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation
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M. GÜRSES Et Al. , "Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation," APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6, pp.3226-3240, 2012

GÜRSES, M. Et Al. 2012. Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation. APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6 , 3226-3240.

GÜRSES, M., AKGÖZ, B., & CİVALEK, Ö., (2012). Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation. APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6, 3226-3240.

GÜRSES, Murat, BEKİR AKGÖZ, And ÖMER CİVALEK. "Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation," APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6, 3226-3240, 2012

GÜRSES, Murat Et Al. "Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation." APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6, pp.3226-3240, 2012

GÜRSES, M. AKGÖZ, B. And CİVALEK, Ö. (2012) . "Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation." APPLIED MATHEMATICS AND COMPUTATION , vol.219, no.6, pp.3226-3240.

@article{article, author={Murat GÜRSES Et Al. }, title={Mathematical modeling of vibration problem of nano-sized annular sector plates using the nonlocal continuum theory via eight-node discrete singular convolution transformation}, journal={APPLIED MATHEMATICS AND COMPUTATION}, year=2012, pages={3226-3240} }