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@article{159508,
        author = {DR S BANIK and Dr Susmita Paul and Dr Sangita Das    and Dr Jayanta chakraborty},
        title = {BUCKLING  OF  RE-INFORCED   ANISOTROPIC   CYLINDRICAL  SHELL  WITH   RINGS    AND   STRINGERS   WITHOUT   SHEAR   LOAD  },
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {9},
        number = {12},
        pages = {108-116},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=159508},
        abstract = {Solution of buckling of cylindrical shells in case of isotropic material is known from the literature on shells e.g. Flugge[1] (1973). An isotropic shell consists of composite materials such as Boron epoxy, re-inforced plastics and whiskers. They are used in many advanced structural applications and quite often in cylindrical shells.
Buckling problem of an isotropic cylindrical shells has occupied the interest of many researchers such as Tasi[2] , Cheng & Kuenzi[3] , Hess T.E[4], Thielemann, Schnell and Fisher[5], Tasi, Fellmann and Strang[6], Cheng & Ho[7,8], Lie and Cheng[9], De,A[10-14].
The object of this paper is to formulate the differential equation for re-inforced anisotropic cylindrical shell of uniform thickness re-inforced by closely spaced rings or stringers or both. The corresponding solution of the differential equation so formulated is found out for shells without shear-load in the case of two-way compression.
},
        keywords = {},
        month = {},
        }