MarceloPagnola| Advanced Materials Engineering | Outstanding Scientist Award

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MarceloPagnola| Advanced Materials Engineering | Outstanding Scientist Award

Dr. MarceloPagnola , INTECIN (UBA-CONICET) , Argentina

Marcelo Ruben Pagnola is a researcher with expertise in soft magnetic materials, rapid quenching, and nanomaterials. He holds a Doctor of Engineering degree from the University of Buenos Aires (UBA), completed in August 2009, with a thesis titled “Development of Ferromagnetic Composites.” He also has a specialization in Nanotechnology from the Consejo Latinoamericano de Ciencias Sociales (CLACSO) and FEDUBA – Sindicato Docente de la UBA, completed in September 2022, with a final project titled “Public-Private Associative Consortium (CAPP)-NANO MAGNETIC: Pendular Technological Evolution.”

Publication Profile

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Education And Experience

Doctor of Engineering from the University of Buenos Aires (UBA), completed in August 2009, with a thesis on the development of ferromagnetic composites.Specialization in Nanotechnology from the Consejo Latinoamericano de Ciencias Sociales (CLACSO) and FEDUBA – Sindicato Docente de la UBA, completed in September 2022, with a final project on the technological evolution of the Public-Private Associative Consortium (CAPP)-NANO MAGNETIC.Conducted research in soft magnetic materials, rapid quenching, and nanomaterials.Developed micro and nanostructured materials using the melt spinning method.Implemented projects at the Laboratory of Amorphous Solids (LSA) at INTECIN for semi-industrial production of prototypes.

Professional Development

Marcelo Ruben Pagnola has a rich and diverse professional development background, with a focus on materials science and nanotechnology. He obtained his Bachelor’s Degree in Mechanical Engineering from the Universidad Nacional de Lomas de Zamora (UNLZ) in 1996, demonstrating early commitment to the field. His academic journey continued with a Doctorate in Engineering from the University of Buenos Aires (UBA), which he completed in 2009. His doctoral thesis on the development of ferromagnetic composites showcases his expertise in the area.Continuing his quest for knowledge, Marcelo pursued a specialization in Nanotechnology, completing it in 2022. His specialization project, which focused on the technological evolution of the Public-Private Associative Consortium (CAPP)-NANO MAGNETIC, received high praise, scoring a perfect 10.

Research Focus

Marcelo Ruben Pagnola’s research focuses on the development of soft magnetic materials, rapid quenching, and nanomaterials. His work involves the creation of amorphous, micro, and nanostructured materials using the melt spinning method. He is particularly interested in utilizing these materials for their potential in rapid cooling technologies. His research also includes computational studies to optimize production routes. Marcelo’s work is not only theoretical but also practical, as he is involved in implementing these technologies on a semi-industrial scale at the Laboratory of Amorphous Solids (LSA) at INTECIN. Additionally, he is actively involved in technology transfer to the industrial sector, ensuring that his research has real-world applications. Marcelo’s work is at the forefront of materials science, contributing to advancements in technology with a focus on energy efficiency and micro- and nanotechnology.

Publication Top Notes

  1. Nanocrystals magnetic contribution to FINEMET-type soft magnetic materials with Ge addition
    • Cited by: 31
    • Year: 2009
  2. Influence of Nb, Mo, and Ti as doping metals on structure and magnetic response in NdFeB based melt spun ribbons
    • Cited by: 21
    • Year: 2018
  3. Electroless coating of Permalloy powder and DC-resistivity of alloy composites
    • Cited by: 20
    • Year: 2006
  4. Biot number behaviour in the Chill Block Melt Spinning (CBMS) process
    • Cited by: 14
    • Year: 2016
  5. Analysis of Fe78Si9B13 (% at.) ribbons of noncommercial scrap materials produced by melt spinning equipment
    • Cited by: 14
    • Year: 2014
  6. Radial distribution function analysis and molecular simulation of graphene nanoplatelets obtained by mechanical ball milling
    • Cited by: 12
    • Year: 2021
  7. Influence of z/w relation in Chill Block Melt Spinning (CBMS) process and analysis of thickness in ribbons
    • Cited by: 8
    • Year: 2015
  8. Structural and magnetic properties of a BaFe12O19/NiFe2O4 nanostructured composite depending on different particle size ratios
    • Cited by: 7
    • Year: 2022
  9. Estudio Magnético de Cintas de FeSiB Obtenidas mediante Melt Spinning
    • Cited by: 5
    • Year: 2013
  10. Improvement to the second‐order rational functions approximation for hysteresis cycles of magnetic materials
    • Cited by: 5
    • Year: 2009