Marin Mihai | Processing and Manufacturing | Best Researcher Award

Marin Mihai | Processing and Manufacturing | Best Researcher Award

Marin Mihai at INCDIE ICPE-CA , Romania

Marin Mihai is a highly skilled metallurgical engineer with over 8 years of experience in cross-cultural national research projects, specializing in metallurgical and energy profiles. He holds a Bachelor’s degree in Material Science Engineering (2007-2011) and a Master’s degree in Management and Engineering of Metallic Materials Production (2011-2013), both from the Politehnica University of Bucharest. Additionally, he completed a scholarship at the Politehnica University of Patras, Greece, focusing on the production of geopolymers from industrial by-products.

Profile :

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Education:

Marin Mihai completed his high school education at National College Spiru Haret in Ploiesti (2003-2007). He then pursued Bachelor Studies in the Faculty of Science and Materials Engineering at Politehnica University of Bucharest (2007-2011), followed by a Master Degree in Management and Engineering of Metallic Materials Production at the same institution (2011-2013). He was awarded a master scholarship at Politehnica University of Patras, Greece, where he conducted research on geopolymers from Red Mud and Rice Husk Ash under Prof. George N. Angelopoulos (February 2013 – August 2013).

Professional Journey:

Marin Mihai began his professional career as a Market Analyst at SC ASHBROOKE EXPERT SRL (July 2011 – January 2014). He then worked as a Metallurgical Engineering Technologist at SC ELECTROMAGNETICA SA (February 2014 – August 2015). Since 2015, he has been a Scientific Researcher at the National Institute for Research and Development in Electrical Engineering ICPE-CA, where he is responsible for various tasks including the development and quality assurance of electrical contacts and participation in project dissemination activities.

Honors & Awards:

Marin Mihai has been recognized for his contributions to the field with various patents, such as those on tungsten-copper-graphene oxide electrical contacts and tungsten-copper-nickel composite materials.

 

Publication Top Note

    1. Tungsten-Copper Composites for Arcing Contact Applications in High Voltage Circuit Breakers
      • Authors: MV Lungu, D Patroi, V Marinescu, S Mitrea, I Ion, M Marin, P Godeanu
      • Journal: Material Science Research India
      • Volume: 17, Issue 3
      • Pages: 8
      • Year: 2020
    2. Enhanced Metallic Targets Prepared by Spark Plasma Sintering for Sputtering Deposition of Protective Coatings
      • Authors: MV Lungu, E Enescu, D Tălpeanu, D Pătroi, V Marinescu, A Sobetkii, M Marin
      • Journal: Materials Research Express
      • Volume: 6, Issue 7
      • Article Number: 076565
      • Year: 2019
    3. Preparation and Study of the Optical, Electrical, and Dielectric Characteristics of Some Disc-Shaped Tin Dioxide-Based Varistors
      • Authors: MV Lungu, D Pătroi, V Marinescu, A Caramitu, M Marin, D Tălpeanu
      • Journal: Romanian Journal of Physics
      • Volume: 67
      • Article Number: 610
      • Year: 2022
    4. Recycled Polypropylene/Strontium Ferrite Polymer Composite Materials with Electromagnetic Shielding Properties
      • Authors: AR Caramitu, MV Lungu, RC Ciobanu, I Ion, M Marin, V Marinescu
      • Journal: Polymers
      • Volume: 16, Issue 8
      • Article Number: 1129
      • Year: 2024
    5. Tribological Behavior of Arcing Contact Materials Based on Copper Infiltrated Tungsten Composites
      • Authors: MV Lungu, E Enescu, M Lucaci, CD Cîrstea, F Grigore, S Mitrea, D Pătroi
      • Conference Proceedings: 9th International Conference “BALTTRIB 2018”
      • Volume: 1
      • Pages: 27-33
      • Year: 2017

    Strengths

    1. Innovative Research on Electrical Contacts:
      • Marin Mihai’s work on tungsten-copper composites for arcing contact applications in high voltage circuit breakers is pioneering. This research is crucial for enhancing the performance and reliability of high voltage circuit breakers, making it a significant contribution to the field of electrical engineering.
    2. Development of Advanced Materials:
      • His research on enhanced metallic targets prepared by spark plasma sintering for sputtering deposition of protective coatings showcases his ability to develop advanced materials with superior properties. This work has implications for improving the durability and efficiency of protective coatings in various industrial applications.
    3. Multidisciplinary Approach:
      • Mihai’s work spans across different areas of material science, including optical, electrical, and dielectric characteristics of tin dioxide-based varistors, and electromagnetic shielding properties of recycled polypropylene/strontium ferrite polymer composite materials. This multidisciplinary approach highlights his versatility and comprehensive understanding of material science.
    4. Contribution to Sustainable Materials:
      • His research on the preparation of geopolymers from industrial by-products such as Red Mud and Rice Husk Ash demonstrates his commitment to sustainability. This work not only provides solutions for waste management but also contributes to the development of eco-friendly materials.
    5. Recognized Expertise and Patents:
      • Mihai’s contributions to the field have been recognized through various patents, including those on tungsten-copper-graphene oxide electrical contacts and tungsten-copper-nickel composite materials. These patents signify his role as a leading innovator and researcher in material science.

    Areas for Improvement

    1. Expanded Collaboration:
      • Increasing collaboration with international researchers and institutions can further enhance the scope and impact of his research. This would provide broader perspectives and potentially lead to more groundbreaking discoveries.
    2. Publication in High-Impact Journals:
      • While Mihai has published in reputable journals, focusing on publishing in higher impact journals could increase the visibility and citation of his work. This would further establish his reputation in the global research community.
    3. Grant Acquisition:
      • Actively seeking and securing more research grants can provide additional resources for his projects. This can enable more extensive research and the ability to explore new areas within material science.
    4. Integration of Emerging Technologies:
      • Incorporating emerging technologies such as artificial intelligence and machine learning in his research methodologies could lead to new insights and more efficient research processes. This could also open new avenues for innovation in material science.
    5. Enhanced Communication Skills:
      • Improving public speaking and presentation skills can aid in effectively disseminating his research findings to a wider audience. This would also be beneficial for securing funding and collaborative opportunities.

    Conclusion

    Marin Mihai is a highly skilled and innovative metallurgical engineer with a robust portfolio of research that has made significant contributions to material science, particularly in the development of advanced materials and sustainable solutions. His strengths in multidisciplinary research, innovation, and recognized expertise have earned him the Best Researcher Award. However, by expanding his collaborations, aiming for high-impact publications, securing more grants, integrating emerging technologies, and enhancing his communication skills, he can further elevate his research impact and continue to be a leader in his field.

Prof Dr. Baicheng Zhang | High-throughput manufacturing Award | Best Researcher Award

Prof Dr. Baicheng Zhang | High-throughput manufacturing Award

Prof Dr. Baicheng Zhang , University of Science and Technology Beijing , China

👨‍🏫 Dr. Baicheng Zhang, a distinguished scholar hailing from the People’s Republic of China, currently serves as a Full Professor at the University of Science and Technology Beijing, specializing in the Institute for Advanced Materials and Technology. With a robust academic background, including a PhD from Université de Technologie Belfort-Montbéliard in Mechanical Engineering and Design, Dr. Zhang has cultivated expertise in additive manufacturing, focusing on Selective Laser Melting and its atmospheric influences on alloy fabrication. His career spans significant roles such as Associate Professor at the same institution and pivotal research positions at Singapore Institute of Manufacturing Technology and Université de Technologie Belfort-Montbéliard. Dr. Zhang is esteemed in his field, evidenced by his editorial roles in prestigious journals like Material Today Communication and International Journal of Minerals, Metallurgy and Materials (IJMMM), where he contributes to advancing knowledge in engineering mechanics and materials science. His dedication to high-throughput manufacturing and material characterization underscores his commitment to innovation in the realm of advanced manufacturing technologies.

🌐 Professional Profile:

Scopus

Google scholar

Orcid

📚 Education:

  • PhD, Université de Technologie Belfort-Montbéliard, France (2009-2013)
    • Mechanical Engineering and Design
    • Thesis: Selective laser melting – Influence of the atmosphere and in-situ realization of alloy
  • PhD Candidature, Xi’an Jiaotong University, China (2008-2009)
    • Mechanical Engineering and Automation
    • Thesis: Rapid prototyping – sterelithography
  • Master Candidature, Xi’an Jiaotong University, China (2007-2008)
    • Software and Automation
  • Bachelor, Xi’an Jiaotong University, China (2003-2007)
    • Mechanical Engineering and Automation

👨‍💼 Work Experience:

  • Full Professor (from June 2024)
    • University of Science and Technology Beijing, Institute for Advanced Materials and Technology
  • Associate Professor (January 2018 – June 2024)
    • University of Science and Technology Beijing, Institute for Advanced Materials and Technology
  • Research Fellow (May 2014 – December 2017)
    • Singapore Institute of Manufacturing Technology (SIMTech), Joining/Forming Technology Group
  • Postdoctoral Fellow (April 2013 – May 2014)
    • Université de Technologie Belfort-Montbéliard, Mechanical Engineering and Design
    • Research: Selective laser melting

🔍 Research Direction:

  • Additive Manufacturing: High Throughput Manufacturing/Characterization; Material Development

🏆 Social Appointments/Awards:

  • Editorial Board Member: Material Today Communication; International Journal of Minerals, Metallurgy and Materials (IJMMM); Metal; Journal of Engineering Mechanics and Machinery, Clausius Scientific Press Inc.

Publication Top Notes:

Effects of processing parameters on microstructure and mechanical property of selective laser melted Ti6Al4V

Citation – 499

The study of the laser parameters and environment variables effect on mechanical properties of high compact parts elaborated by selective laser melting 316L powder

Citation – 448

Effects of processing parameters on properties of selective laser melting Mg–9% Al powder mixture

Citation -315

Study of selective laser melting (SLM) Inconel 718 part surface improvement by electrochemical polishing

Citation -248

Effect of different heat treatments on the microstructure and mechanical properties in selective laser melted INCONEL 718 alloy

Citation -186

 

 

 

 

Dr. Chaoyi Yin | Fabrication award | Best Researcher Award

Dr. Chaoyi Yin | Fabrication award | Best Researcher Award

🏅 Dr. Chaoyi Yin, a rising star in the field of biomedical engineering, shines brightly with a string of accolades including the Fabrication Award and the Best Researcher Award. With a Ph.D. journey underway at Southeast University and a prior Master’s degree from Hefei University of Technology, Dr. Yin’s academic prowess is evident. Their research achievements, marked by five SCI papers and two international PCT patents as the first inventor, showcase a keen focus on advancing innovative technologies, from flexible electronic fabrics to carbon nanotube transistors. At the State Key Laboratory of Bioelectronics, Dr. Yin spearheads research endeavors aimed at tackling environmental challenges, notably in pollutant degradation and viral aerosol mitigation using conductive fiber-based flexible electronics. This dedication to research excellence has earned Dr. Yin recognition as an Outstanding Graduate and an “Excellent Graduate Student,” affirming their commitment to academic excellence and impactful contributions to the field. 🌟

Profile :

Scopus

Orcid

Education:

Ph.D. in Biomedical Engineering, Southeast University, September 2020 – Present (GPA: A+) M.Sc. in Electronic and Communication Engineering, Hefei University of Technology, September 2017 – June 2020

📚 Research Achievements:

Dr. Yin has made significant contributions to the field, publishing five SCI papers as the first or co-first author, covering topics ranging from flexible electronic fabrics for environmental remediation to high-conductivity nylon fiber production. Additionally, Dr. Yin has filed two international PCT patents as the first inventor, showcasing expertise in developing innovative technologies.

🔬 Research Direction:

At the State Key Laboratory of Bioelectronics, Dr. Yin leads research efforts focused on the degradation of pollutants and viral aerosols using conductive fiber-based flexible electronics. This includes work on carbon nanotube field-effect transistors and color-changing fabrics for various applications.

🏆 Honors:

Recognized as an Outstanding Graduate at Hefei University of Technology and awarded the “Excellent Graduate Student” accolade at Southeast University, Dr. Yin’s academic excellence and dedication to research have been consistently acknowledged.

🌐 Language Proficiency:

Dr. Yin possesses strong English proficiency, demonstrated through independent preparation and publication of research in prestigious scientific journals.

🏀 Sports Interests: Beyond academia, Dr. Yin enjoys basketball and has demonstrated leadership as a team captain in university-level competitions.

🌟 Life Motto: Guided by a motto emphasizing the importance of a healthy mindset, continuous learning, and physical well-being, Dr. Yin embodies a holistic approach to life and work.

Publication Top Notes:

Mass-producible low-cost flexible electronic fabrics for azo dye wastewater treatment by electrocoagulation

Citation : 5

Strain-durable high-conductivity Nylon-6 fiber with 1D nanomaterial lamellar cladding for massive production

Citation : 5