Saravanakumar | Properties and Performance | Editorial Board Meamber

Published on 11/12/202511/12/2025 by Composite Awards

Saravanakumar | Properties and Performance | Editorial Board Meamber

Dr. Saravanakumar at Sri Krishna College of Engineering and Technology | India

P. Saravanakumar is an accomplished civil engineering researcher whose work has significantly advanced sustainable construction materials, recycled aggregate technology, and concrete durability. With a strong publication record and over 900 citations, his research spans treated recycled aggregates, high-volume fly ash (HVFA) concrete, slag-based mixes, geopolymer systems, structural behavior, and smart-sensing cement composites. His highly cited studies, including Properties of Treated Recycled Aggregates and Its Influence on Concrete Strength Characteristics and Effect of Admixed Recycled Aggregate Concrete on Properties of Fresh and Hardened Concrete, have shaped current understanding of performance-enhanced recycled aggregate concrete and its role in sustainable infrastructure. His contributions extend to durability assessment, microstructural enhancement, and treatment techniques for improving recycled aggregate quality, with notable works on mechanical behavior, slag integration, shear cracking in reinforced concrete beams, and hybrid fiber systems. More recent publications reflect his evolving interest in innovative materials, such as carbon-black-based self-sensing composites for structural health monitoring, and the application of recycled materials within circular-economy frameworks, including smart waste management. He has also explored environmental engineering domains such as wastewater treatment using fly ash adsorbents and indoor air quality in Indian buildings. Collaborating widely with leading experts, he has established a multidisciplinary research footprint that bridges sustainability, structural performance, and modern material science. Through consistent scholarly output and a strong commitment to environmentally responsible construction, Saravanakumar continues to contribute impactful insights supporting the future of sustainable civil engineering.

Profile: GoogleScholar

Featured Publications

Saravanakumar, P., Abhiram, K., & Manoj, B. (2016). Properties of treated recycled aggregates and its influence on concrete strength characteristics. Construction and Building Materials, 111, 611–617.

Kumar, P. S., & Dhinakaran, G. (2012). Effect of admixed recycled aggregate concrete on properties of fresh and hardened concrete. Journal of Materials in Civil Engineering, 24(4), 494–498.

Saravanakumar, P., & Dhinakaran, G. (2013). Strength characteristics of high-volume fly ash–based recycled aggregate concrete. Journal of Materials in Civil Engineering, 25(8), 1127–1133.

Saravanakumar, P., & Dhinakaran, G. (2014). Durability aspects of HVFA-based recycled aggregate concrete. Magazine of Concrete Research, 66(4), 186–195.

Sivamani, J., Renganathan, N. T., & Palaniraj, S. (2021). Enhancing the quality of recycled coarse aggregates by different treatment techniques—A review. Environmental Science and Pollution Research, 28(43), 60346–60365.

Abdulkadir Sanli | Smart Materials | Best Researcher Award

Published on 18/06/202518/06/2025 by Composite Awards

Abdulkadir Sanli | Smart Materials | Best Researcher Award

Dr. Abdulkadir Sanli, Imperial College London, United Kingdom.

Dr. Abdulkadir Sanli 👨‍🔬 is a postdoctoral research associate at Imperial College London 🇬🇧, specializing in bioengineering and smart diagnostics. His work includes NFC-enabled plant virus detection 🌿📲 and gamified home rehabilitation tools for children with cerebral palsy 🧠🎮. Previously, he served as Assistant Professor and Deputy Head at Turkish-German University 🇹🇷, contributing to research, teaching, and career development. With a Ph.D. in electrical engineering from Technische Universität Chemnitz 🇩🇪, his career spans academia and industry across Germany, China 🇨🇳, Turkey, and the UK. Dr. Sanli blends nanomaterials, sensors, and human-centered technology for impactful global solutions 🌍🔬.

Publication Profiles

Orcid

Google Scholar

Education & Experience

🎓 Education:

🎓 Ph.D. in Electrical Engineering – TU Chemnitz, Germany (2013–2018)
🎓 M.Eng. in Measurement & Sensor Tech – Coburg University, Germany (2010–2012)
🎓 Joint M.Eng. Program – University of Shanghai for Science and Technology, China (2011)
🎓 B.Sc. in Electrical-Electronic Engineering – Dumlupınar University, Türkiye (2005–2009)

💼 Professional Experience:

🧪 Postdoctoral Research Associate – Imperial College London, UK (2022–Present)
👨‍🏫 Assistant Professor / Deputy Head – Turkish-German University, Türkiye (2019–2024)
🎯 Director, Career Center – Turkish-German University (2019–2022)
👨‍🏫 Lecturer – Turkish-German University (2018–2019)
🔬 Research Assistant – TU Chemnitz, Germany (2013–2018)
🧠 Researcher (MSc Thesis) – ChenYang Technologies, Germany (2012)

Suitability for the Award

Dr. Abdulkadir Sanli is a highly accomplished and internationally recognized researcher whose work in bioengineering, sensor technologies, and nanocomposite materials makes him an exemplary candidate for the Best Researcher Award. With a research career defined by interdisciplinary innovation, global collaboration, and societal impact, Dr. Sanli has consistently delivered pioneering solutions to real-world challenges in healthcare, agriculture, and smart materials. His scientific leadership, publication record, and groundbreaking innovations—especially in low-cost diagnostics, pediatric rehabilitation, and functional nanomaterials—position him as a leading contributor to modern engineering science.

Professional Development

Dr. Sanli’s professional journey is marked by global collaboration 🌐, academic leadership 🏛️, and innovative research 🔍. He has mentored MSc and PhD candidates, managed nationally funded projects, and built strong university-industry relations through career development initiatives 🤝. He introduced hands-on learning with gamified rehabilitation devices 🎮 and sensor-based automation 🔧. With experience across the UK, Türkiye, Germany, and China, he brings a multicultural, multidisciplinary outlook 👨‍🏫🌏. He continues to evolve in digital health tech, diagnostics, and smart materials, contributing to real-world applications that improve human well-being 💡❤️.

Research Focus

Dr. Sanli’s research lies at the intersection of smart materials, bioengineering, and diagnostic systems ⚙️🧪. His PhD focused on strain-sensitive CNT-based nanocomposites for advanced sensing 🧵📉. At Imperial College, he leads projects like NFC-based lateral flow assays (e-LFA) for plant virus detection 🌱📲 and SqueezAble, a soft-sensing rehab tool for children with cerebral palsy 🤖🧠. His work applies embedded electronics, soft robotics, and mobile integration to address global health and agricultural challenges 🌍🔬. He also explores gamification, automation, and electromechanical modeling for next-gen sensor applications 🎯⚡.

Awards & Honors

🏆 Doctoral Grant Recipient – Turkish Ministry of Education (Grant Nr. 1416)
🏅 Postdoctoral Appointment – Imperial College London, Department of Bioengineering
🎖️ Project Leadership Roles – PI on multiple funded projects in Türkiye and UK
📚 International Joint Program Graduate – Coburg University & USST, China
🌍 Multinational Researcher Experience – Germany, UK, Türkiye, China

Publication Top Noted

📄 Flexible carbon nanotube films for high performance strain sensors – Cited by: 346 📚 | Year: 2014 📆
📄 Piezoresistive characterization of multi-walled carbon nanotube-epoxy based flexible strain sensitive films by impedance spectroscopy – Cited by: 151 📚 | Year: 2016 📆
📄 Piezoresistive performance characterization of strain sensitive multi-walled carbon nanotube-epoxy nanocomposites – Cited by: 145 📚 | Year: 2017 📆
📄 Electrical impedance analysis of carbon nanotube/epoxy nanocomposite-based piezoresistive strain sensors under uniaxial cyclic static tensile loading – Cited by: 30 📚 | Year: 2020 📆
📄 Piezoresistive pressure sensor based on carbon nanotubes/epoxy composite under cyclic loading – Cited by: 23 📚 | Year: 2018 📆
📄 Investigation of temperature effect on the electrical properties of MWCNTs/epoxy nanocomposites by electrochemical impedance spectroscopy – Cited by: 20 📚 | Year: 2020 📆

Jong-Han Lee | Smart Materials | Best Researcher Award

Published on 30/01/202530/01/2025 by Composite Awards

Jong-Han Lee | Smart Materials | Best Researcher Award

Prof. Dr. Jong-Han Lee, Inha University, South Korea.

Dr. Jong-Han Lee is a Professor and Head of the Department of Civil Engineering at Inha University, Korea. His expertise spans hazard risk analysis, smart materials, earthquake-resistant design, and structural resilience . With a Ph.D. from Georgia Institute of Technology, he has held key roles in academia and industry, including POSCO E&C and Daegu University. A prolific researcher, he leads cutting-edge projects in digital twins, CFRP reinforcements, and AI-driven structural analysis . He actively contributes to global conferences and editorial boards, shaping the future of civil engineering innovation .

Publivation Profiles

Scopus

Googlescholar

Education and Experience

Ph.D. in Civil Engineering – Georgia Institute of Technology (2010)
M.S. in Civil Engineering – KAIST, Korea (2004)
B.S. in Civil Engineering – KAIST, Korea (2002)

Professor & Head – Inha University (2024–Present)
Associate Professor – Inha University (2019–2024)
Assistant Professor – Inha University (2019)
Assistant Professor – Daegu University (2013–2019)
Section Manager – POSCO E&C (2011–2013)
Postdoctoral Researcher – Georgia Tech (2010–2011)
Graduate Research Assistant – Georgia Tech & KAIST

Suitability summary for best researcher Award

Dr. Jong-Han Lee, Ph.D., P.E., a distinguished Professor in the Department of Civil Engineering at Inha University, has been honored with the Best Researcher Award for his outstanding contributions to structural engineering, hazard risk analysis, and smart material applications. His extensive research and leadership in earthquake-resistant design, structural integrity assessment, and smart infrastructure development have significantly advanced the field, making him a deserving recipient of this prestigious accolade.

Professional Development

Dr. Lee has significantly impacted structural engineering, specializing in hazard risk mitigation, earthquake resilience, and smart materials integration . As a conference chairman, editor-in-chief, and research leader, he actively contributes to advancing construction safety and sustainability . His leadership in Korea’s major civil engineering committees fosters global collaborations. With expertise in AI-driven diagnostics and digital twin technologies, his work bridges research and real-world applications . Committed to innovation, he continues to pioneer advanced construction materials, ensuring structural integrity and sustainability for future generations .

Research Focus

Jong-Han Lee, Ph.D., P.E., focuses on structural resilience , hazard risk analysis , and earthquake-resistant design . His research spans smart materials and structures , integrating field data with numerical simulations to enhance structural integrity . He develops advanced monitoring systems and digital twin technologies for predictive maintenance. His work on carbon fiber reinforcement and self-healing cementitious materials aims at sustainable infrastructure . With expertise in high-speed rail bridge dynamics and concrete deterioration analysis , his research contributes to safer, longer-lasting structures in civil engineering.

Awards and Honors

Best Paper Award – Korea Society of Civil Engineers
Outstanding Research Award – Korea Concrete Institute
Excellence in Engineering Innovation – Korea Institute for Structural Maintenance
Top 10 Influential Civil Engineers in Korea – 2023
Best Young Researcher Award – Korean Institute of Bridge and Structural Engineers
Outstanding Editor Award – KSCE Journal of Civil Engineering
Government Research Grant Awards – National Research Foundation of Korea

Publication Top Noted

1️⃣ Flexural capacity of fiber reinforced concrete with a consideration of concrete strength and fiber content – Construction and Building Materials (2017) – Cited by: 173

2️⃣ Influence of concrete strength combined with fiber content in the residual flexural strengths of fiber reinforced concrete – Composite Structures (2017) – Cited by: 148

3️⃣ Investigation of extreme environmental conditions and design thermal gradients during construction for prestressed concrete bridge girders – Journal of Bridge Engineering (2012) – Cited by: 105

4️⃣ Application of probabilistic neural networks for prediction of concrete strength – Journal of Materials in Civil Engineering (2005) – Cited by: 101

5️⃣ Analysis of thermal environmental effects on precast, prestressed concrete bridge girders: temperature differentials and thermal deformations – Advances in Structural Engineering (2012) – Cited by: 95

6️⃣ Crack-closing performance of NiTi and NiTiNb fibers in cement mortar beams using shape memory effects – Composite Structures (2018) – Cited by: 67

7️⃣ Experimental study of the reinforcement effect of macro-type high strength polypropylene on the flexural capacity of concrete – Construction and Building Materials (2016) – Cited by: 64

8️⃣ A vision-based dynamic rotational angle measurement system for large civil structures – Sensors (2012) – Cited by: 63