Gabriela Loera Villeda
Research Associate at Bundeswehr University Munich- Claim this Profile
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Bio
Credentials
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Deutsch für Ingenieur/innen B2/C1
VDI Verein Deutscher Ingenieure e.V.Mar, 2020- Oct, 2024 -
Österreichisches Sprachdiplom B2
ÖSD -
TOEFL iBT 100 points
The TOEFL® test
Experience
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Bundeswehr University Munich
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Germany
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Research Services
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700 & Above Employee
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Research Associate
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Feb 2021 - Present
Working at the Institute of Mathematics for Mathematics and Computer-Based Simulations in the group lead by Prof. Alexander Popp. My research focus on the combination of isogeometric analysis, finite element method, and embedded mesh coupling methods for contact problems. Working at the Institute of Mathematics for Mathematics and Computer-Based Simulations in the group lead by Prof. Alexander Popp. My research focus on the combination of isogeometric analysis, finite element method, and embedded mesh coupling methods for contact problems.
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Technische Universität München
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Germany
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Higher Education
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Graduate Research And Teaching Assistant
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Oct 2018 - May 2020
• Unit testing of C++ wrapped objects with Python using pytest framework for the in-house code Adhoc++.• Expansion of an application for homogenization of materials for viscoelasticity. • Improvement of the previous application using event handlers in C++.
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Master Thesis "Implementation of a Beam Mapping Algorithm for the Framework Kratos Multi-Physics"
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Jul 2019 - Jan 2020
• Creation of a new mapping algorithm for information exchange between beam elements and solid elements and testing it in Python. • Implementing a mapping algorithm form literature for the open-source program Kratos Multiphysics using C++ and Python.• Creation of examples to use the mapper in fluid-structure interaction problems.
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Universidad Nacional Autónoma de México
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Higher Education
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700 & Above Employee
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Bachelor Thesis "Mechanical Analysis of the Functional Spinal Unit L1-L2"
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Mar 2017 - Oct 2017
• Understanding the mechanics of the spine, material models for hyperelastic materials, and common modeling approaches of the spine using the FE-Method.• Modelling of two vertebrae with its intervertebral disc using the finite element program Hyperworks.• Running simulations using OptiStruct solver using load cases from the literature. • Analysis and comparison of the results with the literature. • Understanding the mechanics of the spine, material models for hyperelastic materials, and common modeling approaches of the spine using the FE-Method.• Modelling of two vertebrae with its intervertebral disc using the finite element program Hyperworks.• Running simulations using OptiStruct solver using load cases from the literature. • Analysis and comparison of the results with the literature.
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Education
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Technische Universität München
Master of Science - MS, Computational Mechanics -
Universidad Nacional Autónoma de México
Bachelor's degree, Mechanical Engineering