Modeling failure process of compound bodies by the numerical-analytical potential method
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KeywordsFailure Process Potential Method Modeling Failure Compound Body Modeling Failure Process
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- 1.Yu. V. Veryuzhskii, Numerical Potential Methods in Certain Problems of Applied Mechanics [in Russian], Kiev (1978).Google Scholar
- 2.Yu. V. Veryuzhskii, A. I. Vusatyuk, A. Ya. Petrenko, and V. V. Savitskii, “Examination of the strength of solid continuous structures by the numerical-analytical potential method,” in: 9th International Congress on Application of Mathematics in Engineering Investigation, Vol. 2, Weimar (1981), pp. 37–40.Google Scholar
- 3.Yu. V. Veryuzhskii, A. I. Vusatyuk, A. Ya. Petrenko, and V. V. Savitskii, “Strength calculations and tests. Method of integral equations and computer calculation programs for flat and three-dimensional structure members,” in: Recommendations I 50-54-43-88. Moscow (1988).Google Scholar
- 4.V. D. Kupradze, T. G. Gegelia, T. V. Burchuladze, and T. V. Bashelaishvili, Three-Dimensional Problems of Mathematical Theory of Elasticity and Thermoelasticity [in Russian], Moscow (1976).Google Scholar
- 5.A Method of Boundary Integral Equations. Calculation Aspects and Application in Mechanics [in Russian], Moscow (1978).Google Scholar
- 6.K. Brebbia and S. Wocker, Application of the Method of Boundary Elements in Technology [Russian translation], Moscow (1982).Google Scholar
- 7.P. Banerjee and R. Batterfield, Methods of Boundary Elements in Applied Sciences [Russian translation], Moscow (1984).Google Scholar
- 8.Recommendations on Design and Formation of Contact Joints with Breaks in Reinforcement Rods in Reinforced Concrete Columns of Multilevel Installations [in Russian], Moscow (1985).Google Scholar
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