Speaker
Description
Short biography note
References:
1. Belostosky A.M., Akimov P.A. Adaptive Finite Element Models Coupled with Structural Health Monitoring Systems for Unique Buildings. // Procedia Engineering, Vol. 153 (2016) рр. 83-88.
2. Belostosky A.M., Akimov P.A., Afanasyeva I.N. Multilevel Methodology of Numerical Seismic Analysis of Coupled Systems “Foundation – Shell – Pontoon (Floating Roof) – Column(s) – Fluid”. // Procedia Engineering, Vol. 153 (2016) рр. 89-94.
3. Belostosky A.M., Akimov P.A., Kaytukov T.B., Petryashev N.O., Petryashev S.O., Negrozov O.A. Strength and Stability Analysis of Load-bearing Structures of Evolution Tower with Allowance for Actual Positions of Reinforced Concrete Structural Members. // Procedia Engineering, Vol. 153 (2016) рр. 95-102.
4. Belostosky A.M., Penkovoy S.B., Scherbina S.V., Akimov P.A., Kaytukov T.B. Correct Numerical Methods of Analysis of Structural Strength and Stability of High-Rise Panel Buildings – Part 1: Theoretical Foundations of Modelling, Key Engineering Materials, Vol. 685 (2016) pp. 217-220.
5. Belostosky A.M., Penkovoy S.B., Scherbina S.V., Akimov P.A., Kaytukov T.B. Correct Numerical Methods of Analysis of Structural Strength and Stability of High-Rise Panel Buildings – Part 2: Results of Modelling. // Key Engineering Materials, Vol. 685 (2016) pp. 221-224.
6. Belostotskiy A., Dubinsky S., Afanasyeva I., Kotov F., Vershinin V., Scherbina S., Petryashev S, Petryashev N. External Extreme Impacts on NPP Constructions – Methodology of Computational simulation. // Advanced Materials Research, 2014, Vol. 1040, pp. 472-477.
7. Zienkiewicz O.C., Taylor R.L. The Finite Element Method for Solid and Structural Mechanics. Volume 2. Butterworth-Heinemann, Sixth Edition, 2005, 736 pages.
8. Zienkiewicz O.C., Taylor R.L., Nithiarasu P. The Finite Element Method for Fluid Dynamics. Volume 2. Butterworth-Heinemann, Sixth Edition, 2005, 400 pages.
9. Zienkiewicz O.C., Taylor R.L., Zhu J.Z. The Finite Element Method: Its Basis and Fundamentals. Butterworth-Heinemann, Sixth edition, 2005, 752 pages.