Analysis of the resistance frame of the equipment for opening and compartmentalizing watering furrows, using 3D finite elements

The proposed article sets out the results of the finite element structural analysis for the open and compartmentalised watering furrow equipment (OCWFE). It uses a 3D structural model with 3D finite elements. The analysis set out in the article is made in order to determine the field of relative dis...

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Bibliographic Details
Published in:E3S Web of Conferences 2021-01, Vol.286, p.3009
Main Authors: Cardei, Petru, Oprescu, Marius, Constantin, Nicolae, Biriș, Ștefan-Sorin, Muraru, Sebastian
Format: Article
Language:English
Subjects:
CAD/CAM
Displacement
Equivalence
Finite element method
Furrows
Load bearing elements
Mashing
Safety factors
Stress distribution
Structural analysis
Structural models
Three dimensional models
Yield strength
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Summary:The proposed article sets out the results of the finite element structural analysis for the open and compartmentalised watering furrow equipment (OCWFE). It uses a 3D structural model with 3D finite elements. The analysis set out in the article is made in order to determine the field of relative displacement and equivalent stress in the load-bearing structure of the OCWFE. The structural model is generated in CAD-CAM. For the structural analysis, it is necessary the CAE model, which is obtained from the CAD-CAM model, mainly by eliminating gaps and interferences, but also by the techniques of realizing the contact between the components of the assembly and a careful mashing of the structure. The structural model thus created is supported and loaded in accordance with the experimental results from the literature. The relative displacement field and the equivalent stress field within the resistance frame of the OCWFE is obtained following the linear static analysis. The field of relative displacements is used to assess the effects on the quality of the work performed. The equivalent stress field is used to estimate the safety factor of the structure, by reference to the flow stress of the material from which the structure is built.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/202128603009