Dr. Sofia Papadopoulou | material analysis | Best Researcher Award

Dr.Sofia Papadopoulou ,ELKEME SA, Greece

Dr. Sofia Papadopoulou is a distinguished researcher at ELKEME SA, Greece, where she focuses on advanced materials and their applications in industrial processes. With a strong background in materials science and engineering, Dr. Papadopoulou has made significant contributions to the development of innovative materials and technologies. Her expertise encompasses the synthesis, characterization, and application of novel materials, with a particular emphasis on enhancing performance and sustainability in industrial contexts. Dr. Papadopoulou’s work is highly regarded for its impact on advancing material science and its practical applications in various sectors.

Summary:

Current Role: Senior R&D Engineer at Hellenic Cables SA, specializing in research and innovation in the energy industry.,Previous Roles:,Senior Metallurgical Engineer and Metallurgical Engineer at ELKEME SA, focusing on metallurgical research.,Researcher at the School of Electrical and Computer Engineering, National Technical University of Athens (NTUA).

 

Professional Profiles:

Scopus

Education :

  • Ph.D. in Metallurgical Engineering, National Technical University of Athens (NTUA), 2018-202,Dissertation: Correlation between mechanical properties, texture, and metalworking processes concerning Al 3xxx and 5xxx.,MSc in Metallurgical Engineering, NTUA,International Welding Engineer Diploma, Hellenic Welding Association

Experience:

Senior R&D Engineer, Hellenic Cables SA, Mar 2024 – Presen,Focused on research and innovation in the energy industry as part of a team of seven professionals.,Senior Metallurgical Engineer, ELKEME SA, Nov 2020 – Mar 2024,Metallurgical Engineer, ELKEME SA, Oct 2017 – Oct 2020,Researcher, School of Electrical and Computer Engineering, NTUA, Jul 2015 – Sep 2017,Contributed to European projects and collaborated with researchers from various fields.

Research Focus:

  • Metallurgical properties of aluminum alloys
  • Energy industry innovations and research

Awards:

  • 1st Award for Students, Foundation NTUA for the academic year 2014-2015 (Legacy of D. Thomaidis)
  • H.F.R.I (Hellenic Foundation for Research & Innovation), Sep 2017

Conclusion:

Sofia Papadopoulou demonstrates a strong profile with significant experience in research and development, particularly in the metallurgical and energy industries. Her background in academia and industry, combined with her editorial roles and awards, showcases her dedication and expertise in her field. Her involvement in high-impact projects and innovative research, along with her contributions to academic journals, highlights her potential as a leading researcher.

Publications :

  • “Compositional Design and Thermal Processing of a Novel Lead-Free Cuā€“Znā€“Alā€“Sn Medium Entropy Brass Alloy” by Chaskis et al., Metals, 2024, 14(6), 620.
    • This paper likely discusses the design and thermal processing of a new lead-free brass alloy with a focus on its compositional and thermal characteristics.

 

  • “Compression behavior of diamond cellular structure made of Inconel 718” by Monkova et al., Procedia Structural Integrity, 2024, 58, pp. 35ā€“41.
    • This conference paper explores the compression behavior of diamond cellular structures made from Inconel 718, a high-strength nickel-chromium alloy.

 

  • “Tensile properties of 3D printed INCONEL 718 cellular specimens” by Monkova et al., Journal of Physics: Conference Series, 2024, 2692(1), 012041.
    • This article investigates the tensile properties of 3D printed Inconel 718 cellular specimens, providing insights into their mechanical behavior.

 

  • “An Exploratory Analysis of the Substructural Evolution of AA3104 Rolled Sheet Under Diverse Thermal Treatments” by Papadopoulou and Papaefthymiou, JOM, 2023, 75(12), pp. 5940ā€“5952.
    • This study examines the substructural evolution of AA3104 aluminum alloy sheets under various thermal treatments.

 

  • “Effect of Crosshead Speed and Volume Ratio on Compressive Mechanical Properties of Mono- and Double-Gyroid Structures Made of Inconel 718” by Monkova et al., Materials, 2023, 16(14), 4973.
    • This paper looks at how crosshead speed and volume ratio affect the compressive properties of mono- and double-gyroid structures made from Inconel 718.

 

  • “Examination of the Effect of Cooling Rate after Extrusion to Formability of 6061 Automotive Profiles” by Vazdirvanidis et al., Applied Sciences (Switzerland), 2023, 13(6), 3763.
    • This article evaluates how different cooling rates after extrusion affect the formability of 6061 aluminum profiles used in automotive applications.

 

  • “Evaluation of the machinability of CW614N brass alloy” by Monka et al., Procedia Structural Integrity, 2023, 51, pp. 57ā€“61.
    • This conference paper assesses the machinability of CW614N brass alloy, focusing on its machining characteristics.

 

  • “Tensile fracture analysis of 3D printed Inconel 718” by Monkova et al., Procedia Structural Integrity, 2023, 46, pp. 30ā€“34.
    • This study analyzes the tensile fractures in 3D printed Inconel 718, providing insights into its performance and reliability.

 

  • “The influence of second phase particles on texture during rolling of Al 3104” by Papadopoulou et al., International Journal of Material Forming, 2022, 15(6), 70.
    • This paper explores how second-phase particles influence the texture of Al 3104 aluminum during the rolling process.

 

  • “Evolution of microstructure and crystallographic texture throughout the rolling process of AA3104” by Papadopoulou et al., Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials, 2022, 78(Pt 5), pp. 721ā€“733.
    • This study investigates the changes in microstructure and crystallographic texture of AA3104 aluminum during rolling.
Dr. Sofia Papadopoulou | material analysis | Best Researcher Award

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