Additech

Laboratorio enfocado en el uso de tecnologías de manufactura aditiva para la fabricación, reparación y recubrimientos de componentes metálicos para minería, energía e industria naval.

 

Académicos
Dr. Flavio De Barbieri (flavio.debarbieri@usm.cl)
Dr. Pablo Martin
Dr. Claudio Aguilar

 

Capacidades

Manufactura aditiva de componentes metálicos (DIW, M-FDM, M-FFF)

Caracterización mecánica y microestructural de componentes metálicos.

Simulación numérica de tensiones residuales y gradientes de temperatura en manufactura aditiva.

Simulación numérica de esfuerzos mecánicos.

Anterior
Siguiente
Autor AdditechTítulo y RevistaAño
F. De BarbieriThe Effect of Chromium Contents on the Corrosion Performance of Fe-22Mn-0.6 C TWIP Steels in Sulfate-Containing Environments, Metals, 15.2025
P. MartinRecent Advances in High-Entropy Alloys for Electrocatalysis: From Rational Design to Functional Performance, Materials & Design, 258.2025
P. MartinMicrostructural development via synergic application of Binder Jetting and Quenching and Partitioning (QP) on commercial AISI 4340, Materials Characterization, 222.2025
F. De Barbieri, C. AguilarEffect of Chromium on sliding wear behavior and strain hardening behavior of Fe22Mn0. 6C-xCr TWIP steel, Journal of Materials Research and Technology, 36.2025
C. AguilarA Theoretical Framework for Design and Validation of in situ Composite Manufacturing Techniques, Journal of the Japan Society of Powder and Powder Metallurgy 722025
C. AguilarEffect of Nb and Si Content on Phase Stability, Microstructure and Mechanical Properties of Sintered Ti–Nb–Si Alloys, Metals 15.2025
C. AguilarThe influence of solid lubricant reservoir’s morpho-dimensional evolution on the sliding wear of sintered iron-based self-lubricant composites, Wear 570.2025
F. De BarbieriEffect of Cr content in temperature-dependent mechanical properties and strain hardening of a twinning-induced plasticity steel2024
P. Martin, C. AguilarHigh-entropy alloys as an alternative binder to improve mechanical, tribological, and oxidation properties of cermets, Materials & Design 247.2024
Proyectos de Investigación en curso
Determinación de un modelo constitutivo que relacione una ley de crecimiento de grietas con los mecanismos de endurecimiento en aceros TWIP Fe22Mn0.6CxCr, Proyecto Interno USM
Additive manufacturing of high-entropy alloys as electrodes for hydrogen production, FONDECYT 3250677 (2025 - 2028).
Circular Transformation of Materials (NIST - CTM), Gobierno de Brasil (2025-2030).
Development of high-entropy foam with radial graded porosity for biomaterial use, FONDECYT 230620 (2023 - 2026)
“Teaching aided by simulation”, Proyecto ANSYS

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