The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
Pavol Lengvarský - One of the best experts on this subject based on the ideXlab platform.
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Strength Analysis of Steel Support Structure
American journal of mechanical engineering, 2017Co-Authors: Miroslav Pástor, František Trebuňa, Pavol LengvarskýAbstract:In this paper a Strength Analysis of a steel support structure is investigated. The steel support structure is designed as a truss with L-shaped profiles. The Analysis is performed for three types of load variants. The first two variants take into account current state of the structure and the third variant deals with state after connection of new equipment. The load in the first variant takes into account the weight of the steel support structure and the weight of the roofing. The second variant is expanded by the weight of the snow calculated according to the standards and the third variant is expanded by the weight of the ventilation system. For the all variants, the axial forces and the axial stresses in the truss are computed. It is clear from the results that the steel support structure without fracture and exceeding the yield Strength of the material.
Stig Oma - One of the best experts on this subject based on the ideXlab platform.
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Transverse Strength Analysis of catamarans
Marine Structures, 2000Co-Authors: Svein Erling Heggelund, Torgeir Moan, Stig OmaAbstract:Abstract Stresses and deformations relevant for transverse Strength Analysis are calculated for a 60 m catamaran by a compartment model and are compared with corresponding results from a global model. It is found that the flexibility of the partial bulkheads typical for a twin-hull Ro/Ro-vessel is so large that the interaction with the surrounding structure has to be accounted for. If springs are applied, the results are sensitive to the spring stiffness. A web frame model that does not include any bulkheads, gives large errors and is not recommended.
Miroslav Pástor - One of the best experts on this subject based on the ideXlab platform.
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Strength Analysis of Steel Support Structure
American journal of mechanical engineering, 2017Co-Authors: Miroslav Pástor, František Trebuňa, Pavol LengvarskýAbstract:In this paper a Strength Analysis of a steel support structure is investigated. The steel support structure is designed as a truss with L-shaped profiles. The Analysis is performed for three types of load variants. The first two variants take into account current state of the structure and the third variant deals with state after connection of new equipment. The load in the first variant takes into account the weight of the steel support structure and the weight of the roofing. The second variant is expanded by the weight of the snow calculated according to the standards and the third variant is expanded by the weight of the ventilation system. For the all variants, the axial forces and the axial stresses in the truss are computed. It is clear from the results that the steel support structure without fracture and exceeding the yield Strength of the material.
František Trebuňa - One of the best experts on this subject based on the ideXlab platform.
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Strength Analysis of Steel Support Structure
American journal of mechanical engineering, 2017Co-Authors: Miroslav Pástor, František Trebuňa, Pavol LengvarskýAbstract:In this paper a Strength Analysis of a steel support structure is investigated. The steel support structure is designed as a truss with L-shaped profiles. The Analysis is performed for three types of load variants. The first two variants take into account current state of the structure and the third variant deals with state after connection of new equipment. The load in the first variant takes into account the weight of the steel support structure and the weight of the roofing. The second variant is expanded by the weight of the snow calculated according to the standards and the third variant is expanded by the weight of the ventilation system. For the all variants, the axial forces and the axial stresses in the truss are computed. It is clear from the results that the steel support structure without fracture and exceeding the yield Strength of the material.
Svein Erling Heggelund - One of the best experts on this subject based on the ideXlab platform.
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Transverse Strength Analysis of catamarans
Marine Structures, 2000Co-Authors: Svein Erling Heggelund, Torgeir Moan, Stig OmaAbstract:Abstract Stresses and deformations relevant for transverse Strength Analysis are calculated for a 60 m catamaran by a compartment model and are compared with corresponding results from a global model. It is found that the flexibility of the partial bulkheads typical for a twin-hull Ro/Ro-vessel is so large that the interaction with the surrounding structure has to be accounted for. If springs are applied, the results are sensitive to the spring stiffness. A web frame model that does not include any bulkheads, gives large errors and is not recommended.
