ARMANDO, D.; http://lattes.cnpq.br/6011222485950221; CARNEIRO, Diego Armando de Sousa.
Abstract:
which has the stages of conception, analysis, dimensioning and detailing and the issuance
of drawings and documents. Most sistems in reinforced concrete are created from objects
that can be analyzed as bars, such as beams, which are linear elements subjected to
bending moments, torsion and shear forces. The structural design of these components
becomes less productive and more susceptible to errors if done manually, so the use of
computational tools to aid in the calculation of structural projects is recommended, since, if
used correctly, these tools promote productivity. Therefore, the objective of the present work
is to develop a computational tool for bending and shear design, verification of the limit state
of excessive deformations and generation of the detailing in a file that is compatible with
Autodesk AutoCAD of reinforced concrete beams of rectangular section subjected to
bending and shearing stress using the Python programming language, which is based
mainly on the Functional and Object Oriented paradigms. The results showed that the tool
is applicable both for quick calculations and for the dimensioning of the beams of a
reinforced concrete structure, as well as being susceptible to use for assist teachers in
academic activities.