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Dept. of Mechanical Engineering, Sreenidhi Institute of Science and Technology (SNIST), Hyderabad, India
Dept. of Mechanical Engineering, Vardhaman College of Engineering, Haderabad, India
Structural Design and Analysis Division, Structural Engineering Group, Vikram Sarabhai Space Center, Trivandrum, India
Selected Publications (For more see the link, Prof. G. Venkateswara Rao):
G. V. Rao, I. Raju and T. Murthy, Vibration of rectangular plates with mixed boundary conditions, J. Sound Vib. 30 (2) (1973) 257–260.
G. Venkateswara Rao, V. Sundararamaiah and I.S. Raju, “Finite element analysis of vibrations of initially stressed thin shells of revolution”, Journal of Sound and Vibration, Vol. 37, No. 1, November 1974, pp. 57-64
Venkateswara Rao, G., Raju, I.S., Radhamohan, S.K., Buckling of Shells by Finite Element Method, Journal of Engineering Mechanics Division, ASCE,
Vol. 100, pp. 1092-1096, 1974.
G. V. Rao, J. Venkataramana and K. Kanaka Raju, Stability of moderately thick rectangular plates using a high precision triangular element, Comput. Struct. 5 (1975) 257–260.
B.P. Shastry, G. Venkateswara Rao and M.N. Reddy, Nuclear Engineering and Design, Vol. 36, No. 1, January 1976, pp. 91-95
G. V. Rao, I. S. Raju and K. K. Raju, A finite element formulation for large amplitude flexural vibrations of thin rectangular plates, Comput. Struct. 6 (3) (1976) 163–167.
K. K. Raju and G. V. Rao, Large amplitude asymmetric vibrations of some thin shells of revolution, J. Sound Vib. 44 (1976) 327–333.
I. S. Raju, G. V. Rao and K. K. Raju, Effect of longitudinal or inplane deformation and inertia on the large amplitude flexural vibrations of slender beams and thin plates, J. Sound Vib. 49(3) (1976) 415–422.
G. V. Rao, I. S. Raju, and K. K. Raju, “Nonlinear vibrations of beams considering shear deformation and rotary inertia,” AIAA J., vol. 14, no. 5, pp. 685–687, 1976.
K.K. Raju, G.V. Rao, and I.S. Raju, “Effect of geometric nonlinearity on the free flexural vibrations of moderately thick rectangular plates,” Compu. Struct., vol. 9, pp. 441–444, 1978.
C. Mei, R. Narayanaswami and G. V. Rao, Large amplitude free flexural vibrations of thin plates of arbitrary shape, Comput. Struct. 10 (4) (1979) 675–681.
Rao. K. S. and Rao, G. V., "Large amplitude supersonic flutter of panels with ends elastically restrained against rotation," Int. Journal of Computers and Structures, Vol. 11, No. 3, 1980, pp. 197-201.
G. Venkateswara Rao and K. K. Kanaka Raju, J. Sound Vib. 81, 147 (1982).
Raju, K.K. and Rao, G.V. (1983), “Finite element analysis of post-buckling behavior of cylindrical orthotropic circular plates”, Fibre Sci. Technol., 19, 145–154.
Chelladurai, T., Shastry, B.P. and Rao, G.V. (1984) Effect of fibre orientation on the stability of orthotropic rectangular plates. Fibre Science and Technology, 20(2), 121–134
Venkateswara Rao, G and Kanaka Raju, K (1984). Thermal postbuckling of columns. AIAA Journal 22(6): 850–851
Raju, K. K. and Venkateswara Rao, G (1984). Thermal postbuckling behavior of tapered columns. AIAA Journal 22(10): 1499–1501
G.V. Rao and K.K. Raju, A study of various effects on the stability of circular plates, Comput. Struct., vol. 24, no. 1, pp. 39–45, 1986
Rao, B. N. and G. V. Rao (1987). “Stability of A Cantilever Column Under A Tip-Concentrated Subtangential Force, with the Value of Nonconservativeness Close or Equal to 1/2”. Journal of Sound and Vibration 125(1), pp. 181–184.
Rao, B. N. and G. V. Rao (1987). “Applicability of the Static or the Dynamic Criterion for the Stability of A Cantilever Column Under A Tip Load-Concentrated Subtangential Follower Load”. Journal of Sound and Vibration 120(1), pp. 197–200.
K.K. Raju, G.V. Rao, Thermal Postbuckling of a square plate resting on a elastic foundation by finite element method, Comput. Struct., 28 (1988), pp. 195–199
B. N. Rao and G. V. Rao, “Large deflections of a cantilever beam subjected to a rotational distributed loading,” Forschung im Ingenieurwesen, vol. 55, no. 4, pp. 116–120, 1989
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