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Summary
Summary
This Special Issue of Key Engineering Materials, commemorating the 90th birthday of Professor Jan Sobota, attempts to provide a flavor of the wide range of his interest in and contributions to structural mechanics and the Finite Element Method. Professor Sobota was an outstanding academic teacher, in both didactic and pedagogical fields, a highly talented research worker, incorporating both theory and engineering practice. His attitude, industriousness, and cordiality brought him a great esteem among his co-workers and a students' community. He was a pioneer in using the Finite Element Method, Transfer Matrix Method and the Boundary Integrals Method and its numerical modification Boundary Element Method in former Czechoslovakia (now Slovakia and the Czech Republic). Therefore, selected papers in this book are dealing with modeling and analyzing of various reinforced concrete structures and its parts mainly by the FEM. Different problems of structures, e.g. design of complicated structures, defects of structures, determination of wind load on atypical structures, soil-structure interactions, thermal effects, etc.; are involved and their suitable solutions are provided to readers.
Table of Contents
Influence of Antisymmetrical Actions at Reinforced Concrete Cable-Stayed Bridge | p. 3 |
Analysis of Natural Frequencies of Voided Biaxial Concrete Slabs | p. 15 |
A Method to Predict the Punching Shear Strength of Flat Slabs with Shear Reinforcement Using a Strut-and-Tie Model | p. 25 |
Response of a Reinforced Concrete Slab to the Suddenly Applied Load | p. 36 |
Nonstationary Thermodynamic Analysis of a Chosen Critical Detail in a Waterproof Concrete Basement Structure Using an Experimentally Verified Model | p. 47 |
An Engineering Heat and Mass Transport Model Utilized for Concrete at Fire | p. 58 |
Numerical Models of Wind Effects on Temperature Loaded Object | p. 69 |
Analysis of Creep Effects in a Concrete Beam Using Various Software | p. 79 |
Analysis of Ceiling Slab of Office Centre | p. 89 |
Determination of Load-Carrying Capacity of Railway Concrete Bridges According to New Guideline | p. 100 |
Shear Assessment of Concrete Bridge Deck Slabs | p. 110 |
Analysis of Asymmetric High-Rise Building | p. 120 |
Dilatation of the High-Rise Building by Inserted Field | p. 130 |
Determination of Material Parameters for Nonlinear Analysis of Reinforced Concrete | p. 140 |
Pedestrian Wind Comfort around the Reinforced-Concrete Atypical Structure | p. 153 |
Influence of Contact of Damaged Reinforced Concrete Beam and Strengthening Slab for Deformation and Resistance of Reinforced Element in the Long-Term Loading | p. 164 |
Analysis of Model Foundation Slab Focused on Strain Gauge Measurement | p. 175 |
Design of Bitumen Asphalt Belt Sliding Joint Based on Experiment Results | p. 185 |
Experimental Assessment of Structural Damping of Industrial Boiler Structure | p. 195 |
Numerical and Experimental Analysis of the Nonlinear Response of Reinforced Concrete Frame Structure from Seismic Effects | p. 205 |
Frequent Failures of FRC Industrial Floors | p. 217 |
The Possible Causes of Damage to Concrete Tanks, Numerical Experiment of Fluid-Structure-Soil Interaction | p. 227 |
The Strengthening of Reinforced Concrete Structures | p. 238 |
Analysis of Permanent Lining of Branisko Tunnel | p. 249 |
Actual Problems of the Safety and Reliability of the NPP Structures in Slovakia | p. 261 |
Thermal Effects on Box Girder Concrete Bridges | p. 273 |
Testing and Modelling of Concrete Pile Foundations | p. 287 |
3D Numerical Model of the Subsoil-Structure Interaction and Comparison of the Results with Experimentally Measured Values | p. 298 |
Modeling the Load Test of Vertical Resistance of Pile | p. 310 |
Parallelization of Computational Analysis of Reinforced Concrete Slabs on Foundation | p. 319 |