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Determining the Elastic-Plastic Effective Width of the Free Flange of a Hull Girder with the Breaking of a Wall

Show simple item record Sokov, V. Korostylov, L . 2022-06-16T18:24:06Z 2022-06-16T18:24:06Z 2021
dc.identifier.govdoc DOI:
dc.identifier.issn 1729-3774 (Print)
dc.description Sokov, V. Determining the elastic-plastic effective width of the free flange of a hull girder with the breaking of a wall / V. Sokov, L . Korostylov // Eastern-European Journ. of Enterprise Technologies. – 2021. – Vol. 1, No 7 (109). – P. 32–40. uk_UA
dc.language.iso en uk_UA
dc.relation.ispartofseries 629.5:624.04 uk_UA
dc.subject elastic-plastic effective width uk_UA
dc.subject girder with an axis/ edge/wall breaking uk_UA
dc.subject I-girder uk_UA
dc.subject concentration factor uk_UA
dc.title Determining the Elastic-Plastic Effective Width of the Free Flange of a Hull Girder with the Breaking of a Wall uk_UA
dc.type Article uk_UA
dc.description.abstract1 This paper reports the dependences that have been derived to determine the effective width of a free flange in a dangerous cross-section of the wide-flange hull girder with the breaking of the wall/edges/axis at elastic-plastic deformation depending on the applied load for a perfectly plastic material without strengthening. Currently, there are no systematic dependences to determine the effective width of the free flange of girders of this type, except for certain cases. The technique is suitable for use for both purely elastic and elastic-plastic deformation. To calculate the stressedstrained state (SSS), a finite-element method (FEM) was used to solve the three-dimensional problem from the elasticity and plasticity theory. It has been shown that the node is exposed to simple loading. The reported results were derived within the framework of the deformation theory of plasticity. The largest ratio of external load to the boundary of fluidity is 0.9. The estimation scheme takes into consideration the most unfavorable working conditions of the examined node when the safest data are acquired. The dependences were built for the theoretical coefficient of concentration in a dangerous cross-section, which is used in the proposed procedure to determine the moment of transition from the elastic stage of deformation to elastic-plastic. When determining the effective width, the complex work of the flange and its deplanation was taken into consideration by defining the SSS components in the median plane. The feasibility of the idea of designing the SSS components on the inclined plane of a free flange has been proven. In this case, there is practically a (quasi) flat stressed state, suitable for the application of classical methods to determine the effective width. The proposed technique simplifies the calculations of the strength of the examined girder. uk_UA
dc.title2 2021

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