Flavio De Barbieri | Mechanical Behavior of Materials | Best Researcher Award

Prof Dr. Flavio De Barbieri, Universidad Tecnica Federico Santa Maria, Chile: Mechanical Behavior of Materials, Best Researcher Award

Summary:

Dr. Flavio De Barbieri is a seasoned professional with a diverse background in engineering, materials science, and leadership. He holds a Ph.D. in Engineering Sciences with a specialization in Materials Science from the University of Santiago de Chile. Dr. De Barbieri has played pivotal roles in the Chilean Navy, serving as the Manager of Systems Analysis and the Manager of Research and Development. His international experience includes overseeing technical inspection at Airbus Military in Seville, Spain.

Professional Profile:

🎓 Education:

  • Ph.D. in Engineering Sciences, Materials Science Specialization, University of Santiago de Chile, 2011-2014.
  • Postgraduate Degree in Corrosion, Pontifical Catholic University of Valparaíso, 2003-2004.
  • Postgraduate in Structural Numerical Analysis using Finite Element Method (FEM), ESSS Institute, ongoing since 2021.
  • Mechanical Naval Engineer, Naval Polytechnic Academy, 1995-2000.

Research Focus:

Dr. Flavio De Barbieri’s research focuses on several key areas within materials science and engineering. Some of the primary areas of his research include:

Crack Growth in Manganese Steels (TWIP): Dr. De Barbieri directs a Fondecyt Grant exploring the crack growth law in Manganese Steels, particularly those with Twinning-Induced Plasticity (TWIP). This research contributes to understanding the behavior of these steels under different conditions, with potential applications in various industries.

Wear Behavior of TWIP Steel: As a co-investigator in internal research projects, Dr. De Barbieri explores the wear behavior of TWIP steel, employing Discrete Element Method (DEM) simulations. This research contributes to the knowledge of how these steels respond to mechanical wear and environmental factors.

Seismicity and Thermal Energy Applications: Another area of his research involves being a co-investigator in projects related to induced seismicity and thermal energy. This research likely explores the connection between human activities, such as geothermal energy extraction, and seismic events.

Fracture Mechanics in TWIP Steels: As a co-investigator of a Fondecyt Grant, Dr. De Barbieri has been involved in research related to fracture mechanics in TWIP steels. This research likely delves into understanding how these steels behave under conditions that may lead to fracture, providing valuable insights for structural applications.

Influence of Environment on Durability of Concrete: Dr. De Barbieri has been part of a CYTED Project related to the influence of the environment on the durability of concrete. This research could involve studying the effects of environmental factors on concrete structures, contributing to the development of more resilient construction materials.

Overall, Dr. Flavio De Barbieri’s research portfolio showcases a multidisciplinary approach, combining materials science, structural mechanics, and environmental considerations. His work contributes to both fundamental understanding and practical applications in various engineering fields.

Professional Experience:

In addition to his remarkable professional journey, Dr. De Barbieri has made substantial contributions to academia. As an Associate Professor at the University of Santiago de Chile and an Assistant Professor at the Technical University Federico Santa María, he has imparted knowledge in Metallurgical Engineering and Materials Science. His dedication to education is further evident in his role as an Academic at the Naval Polytechnic Academy, where he taught various engineering subjects.

Academic Experience:

Dr. De Barbieri’s commitment to advancing engineering education led to his appointment as the Academic Director of engineering programs at the Technical University Federico Santa María in 2022. Currently, he serves as the Head of the Metallurgical Civil Engineering Program, fostering academic excellence and program development.

Research Experience:

In the realm of research, Dr. De Barbieri has demonstrated leadership as the Research Director for a Fondecyt Grant focused on the crack growth law in Manganese Steels. He has also contributed as a Co-Investigator in diverse research projects addressing wear behavior, seismicity, and fracture mechanics.

Creation or Invention:

His inventive spirit is showcased through his role as the Principal Developer of a Test Bench for Pratt & Whitney aeronautical turbine engines, as well as the development of a portable power generation kit for ground forces, reflecting his commitment to practical innovation.

Awards and Distinctions:

Dr. De Barbieri’s academic achievements include being recognized as the Best Graduate of the Corrosion Postgraduate Program in 2004 at the Pontifical Catholic University of Valparaíso. He was also honored by the Naval Aviation Command for achieving the highest academic performance in the Naval Engineers course in 2002.

Publication Top Noted:

“Temperature dependence of the microstructure and mechanical properties of a twinning-induced plasticity steel”

  • Published in Metals in 2018.
  • Investigates the impact of temperature on the microstructure and mechanical properties of a twinning-induced plasticity (TWIP) steel.
  • Provides insights into how variations in temperature influence the behavior of TWIP steels, crucial for applications in different environments.

“Corrosion evaluation by electrochemical real-time tracking of VM12 martensitic steel in a ternary molten salt mixture with lithium nitrates for CSP plants”

  • Published in Solar Energy Materials and Solar Cells in 2021.
  • Focuses on the real-time electrochemical tracking of VM12 martensitic steel corrosion in a complex molten salt mixture relevant to Concentrated Solar Power (CSP) plants.
  • Offers valuable insights into the corrosion behavior of materials used in renewable energy applications.

“Mechanical and microstructural characterization of an aluminum bearing trip steel”

  • Published in Metallurgical and Materials Transactions A in 2016.
  • Presents a comprehensive study on the mechanical and microstructural properties of an aluminum-bearing Transformation-Induced Plasticity (TRIP) steel.
  • Contributes to understanding the behavior of TRIP steels, which are important for lightweight and high-strength applications.

“Mechanical behavior of a twip steel (Twinning Induced Plasticity)”

  • Published in Matéria (Rio de Janeiro) in 2015.
  • Investigates the mechanical behavior of a TWIP steel, focusing on the phenomenon of twinning-induced plasticity.
  • Provides valuable insights into the deformation mechanisms of TWIP steels, crucial for their application in structural engineering.

“Frictional energy patterns related to the temperature increases due to intraplate seismicity, southern Norway, 2000–2019 catalogue”

  • Published in the Norwegian Journal of Geology in 2021.
  • Explores frictional energy patterns associated with temperature increases due to intraplate seismicity in southern Norway over the period 2000–2019.
  • Offers insights into the geological and geophysical aspects of intraplate seismic events.