Rathish Kumar Pancharathi | Concrete Making Materials | Best Researcher Award

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Prof. Dr Rathish Kumar Pancharathi | Concrete Making Materials | Best Researcher Award

Professor and Dean at National Institute of Technology Warangal, India

Dr. Rathish Kumar Pancharathi is a distinguished Professor and Dean of Planning and Development at the National Institute of Technology (NIT) Warangal, India. With a robust academic background, including a Ph.D. from NIT Warangal and a Doctor of Engineering from Kitami Institute of Technology, Japan, he has over two decades of experience in civil engineering. Dr. Pancharathi specializes in sustainable construction materials, structural health monitoring, and earthquake engineering. He has guided numerous Ph.D. and M.Tech students, published over 250 research papers, and authored several books. His leadership roles include serving on national and international committees, contributing to Indian Standard codes, and collaborating with global institutions. Recognized for his excellence, he has received multiple awards, including the Best Engineering Faculty Award and the Earth Leader Award for Sustainable Development.

Professional Profile

Google Scholar

Orcid

Scopus

Education 🎓

  • Post-Doctoral Fellowship (PDF): Kitami Institute of Technology, Japan (2009-2010) 🇯🇵
  • Doctor of Engineering (Dr.Eng.): Kitami Institute of Technology, Japan (2003-2006) 🇯🇵
  • Ph.D.: National Institute of Technology Warangal, India (2000-2003) 🇮🇳
  • M.Tech.: Regional Engineering College, Warangal, India (1990-1992) 🇮🇳
  • B.Tech.: Kakatiya University, India (1986-1990) 🇮🇳
    Dr. Pancharathi’s academic journey is marked by prestigious scholarships, including the Japanese Government’s JSPS and Monbusho Scholarships, and the Indian Government Scholarship. His education spans advanced research in civil engineering, focusing on sustainable materials and structural resilience, laying the foundation for his impactful career.

Experience  💼

Dr. Pancharathi has held key leadership roles, including Dean of Planning and Development and Head of Civil Engineering at NIT Warangal. He has contributed to national standards as a committee member for Indian Standard Codes (IS 2542, IS 712) and the Indian Roads Congress. Internationally, he collaborated with institutions in Japan, New Zealand, and Portugal. His administrative roles include chairing infrastructure and drainage committees, leading accreditation efforts, and managing consultancy projects worth crores of INR. He has also been a primary evaluator for Toycathon 2021, a Government of India initiative. His expertise spans structural stability assessments, design vetting, and sustainable construction practices, making him a pivotal figure in civil engineering.

Awards and Honors  🏆

  • Best Engineering Faculty Award (2023) 🥇
  • Earth Leader Award for Sustainable Development (2020) 🌍
  • Duo-India Fellowship (2020-21) 🇮🇳🇬🇧
  • Aftab Mufti Medal for Structural Health Monitoring (2013) 🏗️
  • JSPS Post-Doctoral Fellowship (2009-2010) 🇯🇵
  • Monbukagakusho Scholarship (2003-2006) 🇯🇵
  • Erasmus Mundus Heritage Scholarship (2013) 🇵🇹
  • Distinguished Alumnus Award, Kakatiya University 🎓
    Dr. Pancharathi’s accolades reflect his contributions to engineering education, research, and sustainable development, both nationally and internationally.

Research Focus 🔬

Dr. Pancharathi’s research focuses on sustainable construction materials, including recycled aggregate concrete, low-cost building materials, and high-performance mortars. He explores structural health monitoringearthquake engineering, and microstructure analysis of concrete. His work also includes repair and rehabilitation of structurescomposite materials, and heritage conservation. He integrates advanced techniques like machine learning and digital image correlation for material optimization and structural assessment. His collaborations with global institutions have advanced knowledge in sustainable infrastructure, making significant contributions to eco-friendly construction practices and resilient infrastructure development.

Publication Top Notes 📚

  1. Performance and Microstructure of Agro Biochar-Based Cement Mortars (2025)
  2. Optimizing Compressive Strength of RCA Concrete Using ML (2024)
  3. Low-Grade Limestone-Based Sustainable Cements (2024)
  4. Deterioration Assessment in Repurposed Concrete (2024)
  5. Machine Learning for Concrete Strength Prediction (2024)
  6. Multi-Recycled Aggregate Concrete Using Particle Packing (2024)
  7. Colour Reference Charts for Concrete Deterioration (2024)
  8. Stress-Strain Model for Self-Curing Concrete (2024)
  9. Image-Based Deterioration Assessment in Concrete (2024)
  10. Carbon Sequestration in Agro Biochar Mortars (2025)

Conclusion 🌟

Dr. Rathish Kumar Pancharathi is a luminary in civil engineering, blending academic excellence, administrative leadership, and groundbreaking research. His contributions to sustainable construction, structural health monitoring, and international collaborations have set new benchmarks in the field. With numerous awards, extensive publications, and a commitment to eco-friendly infrastructure, he continues to inspire and innovate, shaping the future of civil engineering globally.

 

Wei Chen | 3D printing of concrete | Best Researcher Award

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Mr Wei Chen | 3D printing of concrete | Best Researcher Award

Student/Member, School of Civil Engineering, Southeast University, China

Wei Chen is a dedicated researcher specializing in 3D printed low-carbon concrete and loess mechanics. He has contributed to multiple scientific research projects, including the development of 3D printing extrusion devices and innovative concrete materials. His work integrates material science, structural engineering, and sustainability, making significant advancements in construction technology. He has participated in various national and international collaborations, particularly in China-Australia innovation projects. With expertise in data analysis, mechanical testing, and material formulation, Wei Chen has published impactful research in top journals.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARD 🏆

Extensive Research Contributions – Wei Chen has participated in multiple high-impact research projects, including national and international collaborations, demonstrating a strong research portfolio.
Innovation in 3D Printing and Low-Carbon Concrete – His work on 3D printed low-carbon concrete and extrusion devices aligns with sustainability and advanced construction technology.
Publications in High-Impact Journals – His research has been published in Construction and Building Materials and Journal of Building Engineering, both reputable journals in the field.
Interdisciplinary Expertise – His contributions span material science, structural engineering, and environmental sustainability, showcasing a diverse research skill set.
Collaboration with Industry & Government – His involvement in enterprise cooperation projects and government-funded research highlights the real-world impact of his work.

AREAS FOR IMPROVEMENT 📈

🔹 Expanding Research Outreach – Increasing citations and presenting research findings at international conferences could further solidify his reputation.
🔹 Broader Collaboration – Engaging with a wider network of international researchers may enhance interdisciplinary innovation.
🔹 Patent Development – Protecting and commercializing his innovations in 3D printing technology could enhance his research impact.

EDUCATION 🎓

📍 Southeast University, Nanjing, China (2021-2025)
Pursuing a doctoral degree, Wei Chen is deeply engaged in research on low-carbon concrete and its applications in 3D printing technology. His academic journey focuses on material behavior, mechanical properties, and sustainability in construction engineering. He has developed expertise in experimental techniques, mix design, and extrusion-based concrete applications, contributing to advancing sustainable building materials.

EXPERIENCE 🏗️

🔹 Central Universities Fund Project (2014-2015) – Data collection and analysis of flow/slip damage in loess.
🔹 Ming Great Wall Repair Project (2014-2015) – Restoration planning and data collection.
🔹 Highway Engineering in Wet Loess Areas (2014-2017) – Conducted mechanical property testing.
🔹 China-Australia Bilateral Innovation Project (2020-2022) – Developed mix ratios for 3D printed concrete.
🔹 Enterprise R&D Project on 3D Printed Concrete (2023-2024) – Innovating low-carbon concrete materials.
🔹 National Natural Science Foundation of China Project – Studying plastic state behavior of 3D printed concrete.

AWARDS AND HONORS 🏆

🏅 Recognized for contributions to 3D printed construction materials.
🏅 Recipient of research funding from national and provincial projects.
🏅 Active participant in prestigious international collaborations.
🏅 Acknowledged for innovations in low-carbon concrete applications.
🏅 Contributor to high-impact scientific publications.

RESEARCH FOCUS 🔬

🔬 3D Printed Low-Carbon Concrete – Advancing sustainable construction techniques.
🔬 Geopolymer Concrete – Enhancing mechanical properties and durability.
🔬 Loess Mechanics – Investigating flow and slip damage in saturated soils.
🔬 Extrusion-Based 3D Printing – Developing advanced printing technologies.
🔬 Structural Performance of Printed Concrete – Improving strength and resilience.

PUBLICATION TOP NOTES📚

📖 Influence of extruded strip shape and dimension on the mechanical properties and pore characteristics of 3D printed geopolymer concreteConstruction and Building Materials (2025)
📖 Improving mechanical properties of 3D printable ‘one-part’ geopolymer concrete with steel fiber reinforcementJournal of Building Engineering (2023)

CONCLUSION 🔍

Wei Chen is a strong candidate for the Best Researcher Award due to his outstanding contributions to 3D printed low-carbon concrete, mechanical behavior of construction materials, and sustainable building technologies. His interdisciplinary approach, research output, and industry collaborations make him well-suited for this recognition. With increased international visibility and commercialization efforts, he could further strengthen his case for prestigious research awards