V
Víctor D. Fachinotti
Researcher at National University of the Littoral
Publications - 84
Citations - 1774
Víctor D. Fachinotti is an academic researcher from National University of the Littoral. The author has contributed to research in topics: Finite element method & Computer science. The author has an hindex of 22, co-authored 75 publications receiving 1277 citations. Previous affiliations of Víctor D. Fachinotti include Intec, Inc. & National Scientific and Technical Research Council.
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Prediction of wind pressure coefficients on building surfaces using artificial neural networks
TL;DR: A computational modeling approach to accurately predict the mean wind pressure coefficient on the surfaces of flat-, gable- and hip-roofed rectangular buildings using artificial neural network to estimate the surface-average pressure coefficient according to the building geometry and the wind angle is presented.
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Finite element modeling of welding processes
TL;DR: In this article, the simulation of fusion welding by the Finite Element Method is presented, which includes a moving heat source, temperature dependence of thermo-physical properties, elasto-plasticity, non-steady state heat transfer, and mechanical analysis.
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Residential building design optimisation using sensitivity analysis and genetic algorithm
TL;DR: In this article, the authors combine sensitivity analysis and simulation-based optimisation in order to optimise the thermal and energy performance of residential buildings in the Argentine Littoral region, where an actual house was selected as case study.
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Application and characterization of metamodels based on artificial neural networks for building performance simulation: A systematic review
TL;DR: A comprehensive and in-depth systematic review of the up-to-date literature related to the application and characterization of ANN-based metamodels for BPS.
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Computational modelling of shaped metal deposition
TL;DR: In this article, a thermal and mechanical finite element (FE) model for shape metal deposition is presented, where the thermal problem is solved with linear tetrahedral finite FEs that take into account the liquid/solid phase change phenomenon.