Up a level |
Ganapathy, S and Rao, KP (1998) Failure analysis of laminated composite cylindrical/spherical shell panels subjected to low-velocity impact. In: Computers and Structures, 68 (6). pp. 627-641.
Ganapathy, S and Rao, KP (1997) Interlaminar stresses in laminated composite plates, cylindrical/spherical shell panels damaged by low-velocity impact. In: Composite Structures, 38 (1-4). pp. 157-168.
Sridhar, C and Rao, KP (1995) Estimation of low-velocity impact damage in laminated composite circular plates using nonlinear finite element analysis. In: Computers & Structures, 54 (6). pp. 1183-1189.
Sridhar, C and Rao, KP (1995) Large deformation finite element analysis of laminated circular composite plates. In: Computers & Structures, 54 (1). pp. 59-64.
Ganapathy, S and Tripathy, Biswajit and Rao, KP (1995) Damage and its growth in laminated composite circular/rectangular plates undergoing large deformations. In: Eighth International Conference on Composite Structures (ICCS/8), Sept. 1995, Paisley, UK, pp. 367-373.
Tripathy, Biswajit and Rao, KP (1993) Stiffened composite axisymmetric shells-optimum lay-up for buckling by ranking. In: Computers and Structures, 46 (2). pp. 299-309.
Biswajit, Tripathy and Rao, KP (1993) Optimum design for buckling of plain and stiffened composite axisymmetric shell panels/shells. In: Seventh International Conference on Composite Structures, July 1993, Paisley, UK, pp. 459-467.
Tripathy, B and Rao, KP (1992) Stiffened composite cylindrical panels�Optimum lay-up for buckling by ranking. In: Computers & Structures, 42 (4). pp. 481-488.
Rao, KP and Gopalkrishna, HR (1992) Optimization of composite cylindrical panels for buckling by ranking. In: Composite Structures, 21 (3). pp. 131-140.
Rao, KP and Issac, Jason Cherian and Viswanath, S and Murthy, Sridhara S (1991) Optimum Design of Composite Laminates for Strength by Ranking. In: Journal of Reinforced Plastics and Composites, 10 (5). 477 -494.
Rao, KP and Tripathy, Biswajit (1991) Composite cylindrical panels-optimum lay-up for buckling by ranking. In: Computers & Structures, 38 (2). pp. 217-225.
Tripathy, B and Rao, KP (1991) Curved composite beams—optimum lay-up for buckling by ranking. In: Computers & Structures, 41 (1). pp. 75-82.
Rao, KP and Prasad, YVRK and Sivaram, K (1990) Deformation processing map for control of microstructure in Al---4Mg alloy. In: Materials Letters, 10 (1-2). pp. 66-70.
Murthy, MVV and Viswanath, S and Murty, Krishna AV and Rao, KP (1988) A two-dimensional model for crack closure effect in plates under bending. In: Engineering Fracture Mechanics, 29 (4). pp. 435-452.
Venkatesh, A and Murthy, Ramana PV and Rao, KP (1986) Finite element analysis of bimodulus composite stiffened thin shells of revolution. In: Computers & Structures, 22 (1). pp. 13-24.
Murthy, Ramana PV and Rao, KP (1985) Analysis of laminated bimodulus composite thin shells of revolution using a doubly curved quadrilateral finite element. In: International Journal for Numerical Methods in Engineering, 21 (2). pp. 285-299.
Venkatesh, A and Rao, KP (1985) Analysis of laminated shells of revolution with laminated stiffeners using a doubly curved quadrilateral finite element. In: Computers & Structures, 20 (4). pp. 669-682.
Gupta, RK and Venkatesh, A and Rao, KP (1985) Finite element analysis of laminated anisotropic thin-walled open-section beams. In: Composite Structures, 3 (1). pp. 19-31.
Gupta, RK and Rao, KP (1985) Instability of laminated composite thin-walled open-section beams. In: Composite Structures, 4 (4). pp. 299-313.
Holla, VS and Rao, KP and Asthan, CB and Arokkiaswamy, A (1984) Aerodynamic characteristics of pretensioned elastic membrane rectangular sailwings. In: Computer Methods in Applied Mechanics and Engineering, 44 (1). pp. 1-16.
Ramana Murthya, PV and Venkatesha, A and Rao, KP (1984) Finite element analysis of curved anisotropic laminated hollow bars. In: Fibre Science and Technology, 20 (4). pp. 255-272.
Ramana Murthy, PV and Rao, KP (1984) Finite element analysis of laminated anisotropic beams of bimodulus materials. In: Computers & Structures, 18 (5). pp. 779-787.
Venkatesh, A and Rao, KP (1983) Analysis of laminated shells with laminated stiffeners using rectangular shell finite elementsstar. In: Computer Methods in Applied Mechanics and Engineering, 38 (3). pp. 255-272.
Venkatesh, A and Rao, KP (1983) Analysis of laminated shells with laminated stiffeners using rectangular shell finite elements. In: Computer Methods in Applied Mechanics and Engineering, 38 (3). pp. 255-272.
Rao, KP and Doraivelu, SM and Roshan, HM and Prasad, YVRK (1983) Deformation processing of an aluminum alloy containing particles: Studies on AI-5 pct Si alloy 4043. In: Metallurgical and Materials Transactions A, 14 (8). pp. 1671-1679.
Venkatesh, A and Rao, KP (1982) A laminated anisotropic curved beam and shell stiffening finite element. In: Computers & Structures, 15 (2). pp. 197-201.
Rao, KP and Venkatesh, A (1981) A Finite Element Model for Elastic and Slip Response of Fusion Magnets. In: Journal of Pressure Vessel Technology, 103 (1). p. 127.
Venkatesh, A and Rao, KP (1980) A Doubly curved Quadrilateral finite-element for the analysis of laminated anisotropic thin shells of revoution. In: Computers & Structures, 12 (6). pp. 825-832.
Bonde, DH and Rao, KP (1980) Stresses around two equal circular elastic inclusions in a pressurised cylindrical shell. In: Computers & Structures, 11 (4). pp. 257-263.
Bonde, DH and Rao, KP (1979) Edge reinforced circular elastic inclusions in cylindrical shells. In: Computers & Structures, 10 (5). pp. 833-837.
Bonde, DH and Rao, KP (1978) Circular elastic inclusions in cylindrical shells. In: Computers & Structures, 8 (3-4). pp. 349-355.
Jayaraman, J and Rao, KP (1978) Thermal stresses in a spherical shell with a conical nozzle. In: Nuclear Engineering and Design, 48 (2-3). 367-375 .
Rao, KP (1978) A rectangular laminated anisotropic shallow thin shell finite element. In: Computer Methods in Applied Mechanics and Engineering, 15 (1). 13-33 .
Prakash, Prem and Rao, KP (1974) Stresses around reinforced curvilinear holes in spherical shells. In: International Journal of Mechanical Sciences, 16 (10). pp. 707-726.
Prakash, P and Rao, KP (1974) Thermal stresses around circular holes in spherical shells. In: Nuclear Engineering and Design, 30 (1). pp. 83-87.