CURRENT PROJECTS
2020 - Caracterización numérica para interacción entre madera y uniones en estructuras, DICYT regular 052018GI
- Funding: Universidad de Santiago de Chile
- Role: Main researcher
- Description: Timber usually has a quasi-brittle behavior characterized by a strong anisotropy according to the grain orientation. In conjunction with steel joints, the timber structure can show a ductile behavior, which is highly desirable when subjected to cyclic loads. It is proposed a numerical framework to simulate a timber structure and to predict the ductile behavior of the structure under different loads, using computational homogenization for timber and phenomenological models for the steel conector. the main objective is to replace this experimental methodology by a numerical framework, in order to obtain new types of hysteretic curves that will help to implement finite elements. This can be used to design connectors within a building with timber structures.
2016 - Fortalecimiento de la investigación en ingeniería a través de la adquisición de una mesa vibradora para el estudio del comportamiento sísmico y vibraciones de estructuras de gran escala, FONDEQUIP EQM160124
- Funding: Agencia Nacional de Investigación y Desarrollo, Chile
- Role: Collaborator
- Description: This project funds the acquisition and implementation of a shaking table to study the vibrations and seismic behavior on large scale structures. It consists in a 3m x 3m multiaxial shaking table, with nearly 20ton static capacity, 15 dynamic capacity and 3 D.O.F. in plane (X, Y translations and in plane rotations). With these characteristics, it will be the largest seismic table in Chile and South America.
- More information : https://www.researchgate.net/project/Fortalecimiento-de-la-investigacion-en-ingenieria-a-traves-de-la-adquisicion-de-una-mesa-vibradora-para-el-estudio-del-comportamiento-sismico-y-vibraciones-de-estructuras-de-gran-escala-FONDEQUIP-EQ
PAST PROJECTS
2016-2019 Advanced Modelling of Ductility and Damage in Mass Timber Structures by Computational Homogenisation, FONDECYT regular 1160691
- Funding: Agencia Nacional de Investigación y Desarrollo, Chile
- Role: Collaborator
- More information : https://www.researchgate.net/project/Advanced-Modelling-of-Ductility-and-Damage-in-Mass-Timber-Structures-by-Computational-Homogenisation-FONDECYT-REGULAR-1160691
2011-2015 Damage prediction in Incremental Forming, F.R.F.C. 2.4601.11F
- Funding: Fond de la Recherche Scientifique, Belgium
- Role: PhD student
- Description: Single point incremental forming (SPIF) is a process where a clamped sheet metal is deformed by using a relatively small tool without the need of a die. SPIF has several advantages over traditional forming, such as the high formability attainable by thematerial. The goal of this research is to predict damage and fracture for the SPIF process using the finite element (FE) method. An extended Gurson-type of damage model is implemented in the Lagamine FE code through a fully-implicit integration scheme. The material model parameters are identified based on a specific methodology involving macroscopic and microscopic measurements, using techniques such as digital image correlation and microscopic image analysis. The finite element simulations are performed using a newly developed solid-shell element formulation, specific for shell-type structures. The simulations are compared with experimental measurements for SPIF standard tests.
- More information : https://www.researchgate.net/project/Damage-Prediction-in-Incremental-Forming-FRFC-2460111F