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

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Orcid

Scopus

Education šŸŽ“

  • Post-Doctoral Fellowship (PDF): Kitami Institute of Technology, Japan (2009-2010) šŸ‡ÆšŸ‡µ
  • Doctor of Engineering (Dr.Eng.): Kitami Institute of Technology, Japan (2003-2006) šŸ‡ÆšŸ‡µ
  • Ph.D.: National Institute of Technology Warangal, India (2000-2003) šŸ‡®šŸ‡³
  • M.Tech.: Regional Engineering College, Warangal, India (1990-1992) šŸ‡®šŸ‡³
  • B.Tech.: Kakatiya University, India (1986-1990) šŸ‡®šŸ‡³
    Dr. Pancharathiā€™s academic journey is marked by prestigious scholarships, including the Japanese Governmentā€™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.

ExperienceĀ  šŸ’¼

Dr. Pancharathi has held key leadership roles, includingĀ Dean of Planning and DevelopmentĀ andĀ Head of Civil EngineeringĀ 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 HonorsĀ  šŸ†

  • Best Engineering Faculty AwardĀ (2023) šŸ„‡
  • Earth Leader Award for Sustainable DevelopmentĀ (2020) šŸŒ
  • Duo-India FellowshipĀ (2020-21) šŸ‡®šŸ‡³šŸ‡¬šŸ‡§
  • Aftab Mufti MedalĀ for Structural Health Monitoring (2013) šŸ—ļø
  • JSPS Post-Doctoral FellowshipĀ (2009-2010) šŸ‡ÆšŸ‡µ
  • Monbukagakusho ScholarshipĀ (2003-2006) šŸ‡ÆšŸ‡µ
  • Erasmus Mundus Heritage ScholarshipĀ (2013) šŸ‡µšŸ‡¹
  • Distinguished Alumnus Award, Kakatiya University šŸŽ“
    Dr. Pancharathiā€™s accolades reflect his contributions to engineering education, research, and sustainable development, both nationally and internationally.

Research Focus šŸ”¬

Dr. Pancharathiā€™s research focuses onĀ sustainable construction materials, including recycled aggregate concrete, low-cost building materials, and high-performance mortars. He exploresĀ structural health monitoring,Ā earthquake engineering, andĀ microstructure analysisĀ of concrete. His work also includesĀ repair and rehabilitation of structures,Ā composite materials, andĀ 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 šŸ“š

  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 šŸŒŸ

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.

 

SunJae Yoo | Concrete Structure | Best Scholar Award

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Dr SunJae Yoo | Concrete Structure | Best Scholar Award

Postdoctoral Researcher, Korea University, South Korea

Dr. Yoo Sun-Jae is a dedicated researcher specializing in advanced materials and structural engineering, particularly focusing on carbon fiber-reinforced polymer (CFRP) bars, ultra-high-performance fiber-reinforced concrete (UHPFRC), and fire-resistant concrete structures. With a Ph.D. from Korea University, his work explores bonding behaviors, impact resistance, and fire-damaged concrete rehabilitation. Dr. Yoo has contributed significantly to the development of lightweight high-strength concrete using nanotechnology and innovative shelter-in-place (SIP) infrastructure. His research combines experimental and analytical approaches to advance sustainable and resilient construction technologies. Recognized for his excellence, he has received awards such as the Best Poster Award from the Korean Society of Civil Engineers and the Best Paper Award from the Journal of the Korean Society of Hazard Mitigation. Dr. Yoo is also an active contributor to international conferences and holds patents for concrete reinforcement technologies.

Professional Profile

Google Scholar

Education šŸŽ“

Dr. Yoo Sun-Jae earned his Bachelorā€™s (2019), Masterā€™s (2021), and Ph.D. (2025) in Civil Engineering from Korea University, Seoul, Republic of Korea. His Ph.D. dissertation focused on the bond performance of ribbed CFRP bars in UHPFRC after exposure to elevated temperatures, achieving a GPA of 4.23/4.50. During his Masterā€™s, he investigated strengthening methods for two-way slabs under low-velocity impact loading, graduating with a GPA of 3.85/4.50. His academic journey reflects a strong foundation in structural engineering, reinforced by his advisor, Professor Young Soo Yoon. Dr. Yooā€™s education has equipped him with expertise in advanced materials, concrete behavior, and innovative construction techniques.

Experience šŸ”§

Dr. Yoo Sun-Jae has extensive research experience, including projects funded by the National Research Foundation of Korea (NRF) and the Korea Agency for Infrastructure Technology Advancement. His work spans the development of smart strengthening techniques for fire-damaged concrete structures, CFRP reinforcements with zero corrosion, and lightweight high-strength concrete using nanotechnology. He has also contributed to the development of SIP infrastructure and DfMA-based modules for curved bridges. Dr. Yooā€™s hands-on experience includes experimental analysis, material development, and structural optimization, making him a versatile researcher in civil engineering and construction materials.

Awards and Honors šŸ†

Dr. Yoo Sun-Jae has been recognized for his outstanding contributions to civil engineering. In 2023, he received the Best Poster Award from the Korean Society of Civil Engineers. Earlier, in 2021, he was honored with the Best Paper Award from the Journal of the Korean Society of Hazard Mitigation. His academic excellence was acknowledged in 2018 with the Academic Achievement Excellence Award from Korea University. These accolades highlight his dedication to advancing research in structural engineering and innovative construction materials.

Research Focus šŸ”

Dr. Yoo Sun-Jaeā€™s research focuses on the bonding behavior of CFRP bars in UHPFRC, particularly under elevated temperatures and fire conditions. He investigates the impact resistance, fire resistance, and development length of concrete structures reinforced with advanced materials. His work also includes the development of lightweight high-strength concrete using carbon nanotubes (CNTs) and the optimization of SIP infrastructure. Dr. Yooā€™s research integrates experimental and analytical approaches to enhance the durability, safety, and sustainability of modern construction materials and techniques.

Publication Top Notes šŸ“š

  1. Flexural behavior of ribbed CFRP bars in UHPFRC beams with lap-splice connection.
  2. Degradation of flexural bond of CFRP bar in UHPFRC after exposure to elevated temperature.
  3. Reinforcing effect of CNT on the microstructure and creep properties of high-strength lightweight concrete.
  4. Flexural bond behavior and development length of ribbed CFRP bars in UHPFRC.
  5. Structural benefits of using carbon nanotube reinforced high-strength lightweight concrete beams.
  6. Bonding behavior and prediction of helically ribbed CFRP bar embedded in UHPC.
  7. Comparative bond-slip response of ribbed CFRP bar to UHPC after exposure to high temperature.
  8. Evaluation of residual bond behavior of CFRP and steel bars embedded in UHPC after elevated temperature.
  9. Effect of design code and evacuation information on strategic location of SIP in light rail stations.
  10. Effect of strengthening methods on two-way slab under low-velocity impact loading.
  11. Effect of internal curing on shrinkage and creep of self-compacting lightweight concrete.
  12. Post-heating flexural performance of UHPFRC members reinforced with ribbed CFRP bar.
  13. Influence of elevated temperature on the flexural behavior of spliced CFRP bars in UHPFRC beams.

Conclusion šŸŒŸ

Dr. Yoo Sun-Jae is a highly accomplished researcher whose work in CFRP bars, UHPFRC, and fire-resistant concrete structures has significantly advanced the field of civil engineering. His innovative approaches to material development and structural optimization have earned him numerous accolades and patents. Through his research, Dr. Yoo continues to contribute to the development of sustainable, resilient, and high-performance construction technologies, ensuring safer and more durable infrastructure for the future.

Amr Ghoniem | Concrete | Best Innovation Award

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Dr Amr Ghoniem | Concrete | Best Innovation Award

Lecturer, Zagazig university, Egypt

Amr Ghoniem is a dedicated researcher and lecturer in Structural Engineering at Zagazig University, Egypt, with over 10 years of teaching and research experience. Specializing in concrete and steel structure technologies, his work focuses on sustainability and innovative material applications. He leads research projects, mentors graduate and undergraduate students, and contributes to numerous academic publications. With a passion for both teaching and advancing research in structural engineering, Ghoniem’s goal is to shape the future of sustainable concrete and steel structures. šŸŒšŸ“š

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

Amr Ghoniem exhibits a strong track record in the field of structural engineering, with a notable focus on sustainable concrete and material technology. With over a decade of teaching experience at Zagazig University, his dedication to both education and research is evident. His extensive work in reinforced concrete, numerical analysis, and self-healing concrete systems is a significant contribution to the field. Ghoniem’s publication record is impressive, with key articles on innovative concrete technologies such as self-repairing concrete and fiber-reinforced systems. His leadership in research projects, along with the mentoring of students, further strengthens his profile as an exceptional academic.

AREAS FOR IMPROVEMENT

While Ghoniem’s research is impactful, expanding his collaborations on a global scale could further elevate his work. Strengthening ties with international research communities and exploring interdisciplinary research projects could lead to even more groundbreaking findings. Increased visibility in major global conferences and greater involvement in leadership roles within professional engineering organizations could boost his academic and research influence.

EDUCATION

Amr Ghoniem completed his B.Sc. in Civil Engineering at Zagazig University in 2010, graduating with a very good grade. He went on to earn his Master’s Degree in Structural Engineering in 2016, followed by a Ph.D. in Structural Engineering in 2020. His doctoral thesis focused on “Self-Repairing Concrete Beams with Bacillus Subtilis Bacteria and Polyethylene Fiber.” Ghoniem’s educational journey is a testament to his commitment to academic excellence and sustainable engineering. šŸŽ“šŸ“–

EXPERIENCE

Since 2010, Amr Ghoniem has been a lecturer in the Structural Engineering Department at Zagazig University. His professional expertise includes teaching, conducting research, and supervising graduate and undergraduate projects. His work spans a variety of projects related to concrete and steel structures, especially in sustainability and innovative material use. He actively contributes to research proposals and journals and has extensive involvement in educational advancements within the engineering field. šŸ«šŸ”¬

AWARDS AND HONORS

Amr Ghoniem has been recognized for his exceptional research in structural engineering. Notably, his contributions to sustainable concrete materials have garnered him several accolades in the academic community. His work on self-repairing concrete beams and innovative materials has led to publication in several high-impact journals. Ghoniemā€™s continuous pursuit of excellence in both research and teaching is reflected in his numerous awards and honors. šŸ†šŸŽ–ļø

RESEARCH FOCUS

Ghoniemā€™s research focuses on reinforced concrete, self-healing concrete, and numerical analysis of concrete structures. He is particularly interested in the behavior of concrete structures under various conditions, using innovative materials such as Bacillus subtilis bacteria and polyethylene fibers. His work aims to improve the sustainability and longevity of concrete structures while integrating advanced technology to optimize construction practices. šŸŒ±šŸ”§

PUBLICATION TOP NOTES

  • Experimental Investigation into the Properties of Crumb Rubberized Concrete Incorporating Corrugated Round Steel Fibers (2024) šŸ“„
  • Glass Fiber for Improved Behavior of Light Expanded Clay Aggregate Concrete Beams: An Experimental Study (2023) šŸ“„
  • Deep Learning Shear Capacity Prediction of Fibrous Recycled Aggregate Concrete Beams Strengthened by Side Carbon Fiber-Reinforced Polymer Sheets (2022) šŸ“„
  • Inducing Competence-Based Assignment in Traditional Structural Engineering Education: A Case Study (2022) šŸ“„
  • Behavior of Macro-Synthetic Fiber-Reinforced High-Strength Concrete Beams Incorporating Bacillus Subtilis Bacteria (2021) šŸ“„
  • Self-Repairing Polyethylene Fiber-Reinforced-Concrete with Bacillus Subtilis Bacteria: A Review (2020) šŸ“„
  • Analysis of Reinforced Concrete D-Regions Using Strut-and-Tie Model (2016) šŸ“„

CONCLUSION

Amr Ghoniem’s dedication to advancing the field of structural engineering through both teaching and impactful research makes him a strong candidate for the Best Researcher Award. His focus on sustainable materials and innovative engineering solutions positions him as a forward-thinking researcher with the potential to make significant contributions to the future of civil engineering. Expanding his international network and collaborations will further enhance his visibility and influence in the academic and research community.

Mohammad Rasul Givkashi – Concrete technology – Best Researcher Award

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Mohammad Rasul Givkashi - Concrete technology - Best Researcher Award

Amirkabir University of Technology Department of Civil Engineering - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

RESEARCH INTERESTS

MohammadRasul Givkashi, a distinguished scholar at Amirkabir University of Technology, has dedicated his research to advancing the field of civil engineering. His primary interests include new construction technologies, innovative construction materials, green and smart buildings, 3D printing of buildings, and special concretes. His work focuses on enhancing the sustainability, efficiency, and durability of construction practices.

EDUCATIONAL BACKGROUND

Givkashi completed his Master of Science in Civil Engineering, specializing in Construction Management, at Amirkabir University of Technology in Tehran, Iran, from 2021 to 2024. His outstanding academic performance is reflected in his perfect GPA of 4.0 (18.95/20). His thesis, supervised by Dr. Faramarz Moodi, investigated the durability assessment of 3D printed concrete with air-entraining admixture. He also holds a Bachelor of Science in Civil Engineering from the same university, achieved in 2021 with a GPA of 3.9 (18.17/20).

HONORS AND AWARDS

Throughout his academic career, Givkashi has received numerous accolades, including ranking 1st in Civil Engineering with a major in Construction Management among his peers at Amirkabir University of Technology in 2020. He was also included in the facilities of the National Elite Foundation for two consecutive years and received 'Straight' M.Sc. Admission Offers to top universities in Iran due to his high GPA.

RESEARCH PROJECTS

Givkashi has actively participated in several significant research projects. These include modeling composite reinforced concrete columns using finite element software, designing highways and residential buildings, and contributing to the Smart Schools Plan under the National Elite Foundation. His projects, supervised by renowned academics such as Dr. Aliakbar Ramezanianpor and Dr. Alireza Rahai, highlight his expertise in both theoretical and practical aspects of civil engineering.

PUBLICATIONS

His research contributions are well-documented in reputable journals. Notable publications include a comparative study on the fineness of low-grade calcined clays on the properties of blended concretes in the Civil Engineering Infrastructures Journal, and a feasibility study on 3D printing concrete for building construction in the AUT Journal of Civil Engineering. His work has also explored the simulation of evacuation in educational buildings and the factors affecting the drying shrinkage and compressive strength of slag geopolymer mortar mixtures.

PROJECT SUPERVISION

Givkashi has demonstrated strong leadership in guiding research projects. He has worked on the durability of 3D printed concrete, highway design, and the design of residential buildings with both reinforced concrete and steel frames. His supervision has helped shape innovative solutions in civil engineering, emphasizing practical applications and sustainability.

PROFESSIONAL DEVELOPMENT

In addition to his academic achievements, Givkashi has actively engaged in professional development through his involvement in the National Elite Foundation and participation in faculty Olympiad teams. His dedication to continuous learning and professional growth underscores his commitment to advancing the field of civil engineering.

CONTRIBUTIONS TO CIVIL ENGINEERING

Givkashi's contributions to civil engineering are substantial, encompassing innovative research, impactful publications, and active participation in significant projects. His work not only advances academic knowledge but also provides practical solutions to contemporary challenges in construction and infrastructure development. His commitment to excellence and innovation makes him a valuable asset to the field of civil engineering.

NOTABLE PUBLICATION

  • Effects of different types of fibers on fresh and hardened properties of cement and geopolymer-based 3D printed mixtures: a review.
    • Authors: A Ramezani, S Modaresi, P Dashti, MR GivKashi, F Moodi, ...
    • Year: 2023
  • Software simulation of chloride ions penetration into composite of pre-fabricated geopolymer permanent formworks (PGPFs) and substrate concrete.
    • Authors: ER Dehkordi, F Moodi, MR GivKashi, AA Ramezanianpour, M Khani
    • Year: 2022
  • Considerations for the Construction, Implementation and Economic Evaluation of Geopolymer Permanent Formworks (GPFs): A New Approach to Protect Concrete Structures Against...
    • Authors: E Riahi Dehkordi, MR GivKashi
    • Year: 2023
  • Investigating the applications of geopolymer mixtures, focusing on the repair and strengthening of reinforced concrete structures: A Review.
    • Authors: MR Givkashi, F Moodi
    • Year: 2022
  • Investigation of Affecting Factors on Drying Shrinkage and Compressive Strength of Slag Geopolymer Mortar Mixture.
    • Authors: E Riahi Dehkordi, F Moodi, MR GivKashi, AA Ramezanianpour
    • Year: 2023