The stability of anisotropic cylindrical shells under torsion in spatial position

• Main Author: Andrei Podvornyi
• Format: Article
• Language: English
• Published: Warsaw University of Life Sciences 2020-05-01
• Series: Acta Scientiarum Polonorum. Architectura
• Subjects: cylinder; stability; anisotropy; torsion; spatial formulation
• Online Access: http://www.architectura.actapol.net/tom19/zeszyt1/19_1_103.pdf
• ISSN: 1644-0633; 2544-1760

In the present paper, an infinite system of homogeneous differential equations in the Cauchy normal form was obtained to solve the problem of the stability of cylindrical anisotropic layered shells under the action of external torque, based on the spatial relationship of elasticity theory. The components of the stress state that are necessary to solve the equation system were derived analytically by using the generalised Hooke’s law. The results are obtained for a single-layer cylinder, and compared with the values of critical loads calculated using the well-known method proposed by Lechnitsky. The suggested approach could be implemented, for instance, to solve the problem of cylindrical two-layer shell stability under the action of torque, which is projected by calculating the shear stress.