Aomar Hadjadj | Advanced Materials Engineering | Best Researcher Award

Best Researcher Award

Aomar Hadjadj
Affiliation University of Reims Champagne-Ardenne
Country France
Scopus ID 7003557463
Documents 73
Citations 1,072
h-index 20
Subject Area Advanced Materials Engineering
Event Computer Scientists Awards

Aomar Hadjadj

University of Reims Champagne-Ardenne, France

Aomar Hadjadj is a researcher associated with the University of Reims Champagne-Ardenne whose academic work focuses on advanced materials engineering, dielectric materials, polymer aging, functional coatings, and semiconductor technologies. His publication record demonstrates interdisciplinary collaboration across materials science, electrical insulation, surface engineering, and environmental applications. Through contributions to peer-reviewed journals and international conferences, his research supports the development of durable engineering materials, sustainable coating technologies, and innovative characterization methods.[1]

Abstract

This article summarizes the scholarly profile of Aomar Hadjadj in the field of advanced materials engineering. His research encompasses polymer degradation, dielectric insulation systems, transparent semiconductor coatings, photocatalytic materials, and reliability assessment of engineering components. These investigations contribute to improved material performance, sustainable technologies, and industrial durability through experimental characterization and multidisciplinary collaboration.[2]

Keywords

Advanced Materials Engineering, Polymer Aging, EPDM Rubber, Functional Coatings, Semiconductor Films, Dielectric Materials, Photocatalysis, Electrical Insulation, Surface Engineering, Materials Characterization.

Introduction

Modern engineering increasingly depends on materials capable of maintaining performance under demanding environmental and operational conditions. Hadjadj’s investigations address these challenges by studying degradation mechanisms, functional coatings, and advanced dielectric systems that enhance reliability in industrial applications. His collaborative publications span journal articles and conference proceedings, reflecting continued engagement with emerging engineering challenges.[3]

Research Profile

  • Scopus Author ID: 7003557463.
  • 73 indexed publications with 1,072 citations.
  • Current h-index of 20.
  • Research spans polymer science, dielectric engineering, coatings, and semiconductor materials.

Research Contributions

His recent work examines hydraulic and climatic aging of EPDM insulation materials, transparent semiconductor films for functional coatings, and photocatalytic degradation of industrial dyes using titanium dioxide nanomaterials. These studies combine laboratory experimentation with engineering analysis to improve durability, efficiency, and environmental sustainability in advanced material systems.[4]

Publications

  • Quantitative Kinetic Analysis of Hydraulic Aging in EPDM Rubber: Evolution of Functional Properties.
  • Recent Advances in Functional Transparent Semiconductor Films and Coatings.
  • Sunlight-Driven Photodegradation of RB49 Dye Using TiO2-P25 and TiO2-UV100.
  • Effects of Climatic Aging on the Performance of EPDM Used in Power Cable Insulation. IEEE ICD 2024.

Research Impact

The citation metrics and publication portfolio indicate sustained scientific influence within materials engineering. Research outputs have supported understanding of insulation aging, advanced coatings, photocatalytic materials, and semiconductor technologies, providing valuable references for researchers and industrial practitioners.[5]

Award Suitability

Based on publicly available scholarly indicators, publication productivity, interdisciplinary collaborations, and contributions to advanced materials engineering, Aomar Hadjadj demonstrates characteristics commonly associated with recognition through a Best Researcher Award. His work addresses practical engineering challenges while advancing scientific understanding through peer-reviewed research and international dissemination.[6]

Conclusion

Aomar Hadjadj has established a consistent research profile within advanced materials engineering through contributions to polymer science, dielectric insulation, coatings, and functional materials. His publications, citation performance, and collaborative research activities reflect ongoing engagement with topics of scientific and industrial importance, supporting his profile as an accomplished academic researcher.

References

  1. Elsevier. (n.d.). Scopus Author Details: Aomar Hadjadj, Author ID 7003557463.
    https://www.scopus.com/authid/detail.uri?authorId=7003557463
  2. Bouguedad, D., Mouri, D., Hadjadj, A. (2026). Polymers.
    https://doi.org/10.3390/polym18131604
  3. Hadjadj, A., Gilliot, M. (2025). Coatings.
    https://doi.org/10.3390/coatings15121445
  4. Zaaboul, F., et al. (2024). Coatings.
    https://doi.org/10.3390/coatings14101270
  5. Bouguedad, D., et al. (2024). IEEE ICD Proceedings.
    https://ieeexplore.ieee.org/document/10613187
  6. Computer Scientists Awards. Best Researcher Award Information.
    https://computerscientists.net/

Bora Park | Advanced Materials Engineering | Best Researcher Award

Best Researcher Award

Bora Park – POMIA (Pohang Institute of Materials Industry Advancement)

Bora Park
Affiliation POMIA (Pohang Institute of Materials Industry Advancement)
Country South Korea
Scopus ID 57207742240
Documents 3
Citations 117
h-index 3
Subject Area Advanced Materials Engineering
Event Computer Scientists Awards

Bora Park is a researcher associated with the POMIA (Pohang Institute of Materials Industry Advancement), South Korea, whose scholarly activities focus on advanced materials engineering, corrosion science, surface treatment technologies, and alloy-coated steel systems. Her research contributions address industrial challenges related to durability, corrosion resistance, coating technologies, and functional material performance. Through studies involving Zn-Al-Mg alloy coated steels, electroless nickel plating, sensor technologies, and electrochemical behavior analysis, she has contributed to the understanding of material degradation mechanisms and performance enhancement strategies in industrial environments.[1]

Abstract

This article summarizes the academic profile and research achievements of Bora Park in advanced materials engineering. Her work encompasses corrosion behavior analysis, alloy-coated steel systems, electroless plating technologies, and sensor applications. The research portfolio demonstrates engagement with practical industrial materials challenges while contributing to scientific understanding of surface engineering and electrochemical performance.[2]

Keywords

Corrosion Science, Advanced Materials Engineering, Zn-Al-Mg Alloy, Electroless Nickel Plating, Surface Engineering, Electrochemical Behavior, Steel Coatings, Material Durability.

Introduction

Advanced materials research plays an essential role in improving the performance and longevity of industrial components. Bora Park’s investigations focus on corrosion mechanisms, coating technologies, and material optimization strategies. These studies contribute to the development of reliable and sustainable engineering materials capable of operating under demanding environmental conditions.[3]

Research Profile

Bora Park has established a research profile centered on materials characterization, corrosion evaluation, and surface modification technologies. Her scholarly output reflects interdisciplinary collaboration involving materials science, electrochemistry, coating technologies, and industrial engineering applications. Citation metrics indicate growing academic recognition within specialized materials engineering domains.[1]

Research Contributions

  • Investigation of corrosion behaviors in eutectic structures of Zn-Al-Mg alloy coated steel under chloride-containing environments.
  • Research on electroless nickel plating effects on Al-cBN composites and their electrochemical performance.
  • Evaluation of cut-edge corrosion behavior of Zn-Al-Mg alloy coated steel sheets.
  • Development and optimization of ZnO nano-sensor technologies for toluene detection.

Publications

  • Park B., Choi J., et al. Effect of Electroless Ni Plating Time on the Surface Evolution and Electrochemical Behavior of Al-cBN Composites. Coatings, 2026.
  • Mechanical Study on the Cut-Edge Corrosion Behaviors of Zn-Al-Mg Alloy Coated Steel Sheets in Chloride Containing Environments. Corrosion Science, 2019.
  • Ultrasonic Process Parameter of ZnO-Nano Sensor on Toluene Detection. Sensor Letters, 2016.

Research Impact

The research impact of Bora Park is reflected through scholarly citations, industry relevance, and contributions to materials durability studies. Her investigations provide valuable insights into corrosion-resistant coatings and surface engineering solutions that support industrial manufacturing, infrastructure protection, and advanced material development.[4]

Award Suitability

Bora Park demonstrates qualifications aligned with the objectives of the Best Researcher Award through her documented contributions to advanced materials engineering. Her research addresses practical industrial challenges while advancing scientific knowledge in corrosion science, electrochemical characterization, and coating technologies. The combination of publication output, citation performance, and applied research significance supports recognition within an international academic award framework.[5]

Conclusion

Bora Park has contributed to the advancement of materials engineering through research focused on corrosion science, alloy-coated steel systems, surface treatments, and sensor technologies. Her work supports both academic understanding and industrial application, making her research profile a noteworthy example of applied materials science scholarship.[6]

References

  1. Elsevier. (n.d.). Scopus author details: Bora Park, Author ID 57207742240. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57207742240
  2. Park, B., et al. (2026). Effect of Electroless Ni Plating Time on the Surface Evolution and Electrochemical Behavior of Al-cBN Composites. Coatings.
  3. Corrosion Science. (2019). Mechanical Study on the Cut-Edge Corrosion Behaviors of Zn-Al-Mg Alloy Coated Steel Sheets.
  4. Materials Engineering Literature. Corrosion Behaviors of the Eutectic Structure in Zn-Al-Mg Alloy Coated Steel.
    https://doi.org/10.1016/j.corsci.2017.09.003
  5. Computer Scientists Awards. (n.d.). Research Excellence Recognition Program.
    https://computerscientists.net/