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 🎓

Dr. Yoo Sun-Jae earned his Bachelor’s (2019), Master’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 Master’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. Yoo’s education has equipped him with expertise in advanced materials, concrete behavior, and innovative construction techniques.

Experience 🔧

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. Yoo’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 🏆

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 🔍

Dr. Yoo Sun-Jae’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. Yoo’s research integrates experimental and analytical approaches to enhance the durability, safety, and sustainability of modern construction materials and techniques.

Publication Top Notes 📚

  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 🌟

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.

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

Yan Liu – High performance cementitious materials – Best Researcher Award

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Yan Liu - High performance cementitious materials - Best Researcher Award

Southeast University - China

AUTHOR PROFILE

SCOPUS

EXPERT IN ENGINEERING INNOVATION 🏗️

Yan Liu, Ph.D., earned his doctorate in Engineering from Southeast University, where he developed a keen focus on high-performance concrete materials. His innovative research has led to the publication of several SCI papers, demonstrating his expertise in the field. His work revolves around advanced materials used in construction, contributing significantly to the knowledge base of high-temperature resistant cement.

RESEARCH IN HIGH-PERFORMANCE CONCRETE 🧱

Yan Liu’s primary research focuses on the development of advanced concrete materials, particularly Magnesium Potassium Phosphate Cement (MKPC). His work explores the integration of fly ash and silica fume to improve the high-temperature performance of MKPC. By blending these components, he aims to enhance the durability and resilience of materials used in critical infrastructure, such as fireproof coatings and patching materials.

MAGNESIUM POTASSIUM PHOSPHATE CEMENT RESEARCH 🔥

One of Yan Liu’s key studies examines the behavior of MKPC under high-temperature conditions. His experiments involve testing the material’s compressive and flexural strength before and after exposure to elevated temperatures. His findings reveal that incorporating silica fume and fly ash significantly improves MKPC’s strength and heat resistance, making it more suitable for high-temperature environments.

MICROSTRUCTURE AND PHASE ANALYSIS 🔬

Utilizing advanced techniques such as XRD and SEM, Yan Liu delves into the microstructure of MKPC to understand its performance at a microscopic level. His research shows how silica fume and fly ash promote the sintering of phases derived from K-struvite decomposition, forming ceramic-like structures that enhance the material’s strength under extreme conditions.

INNOVATION IN MATERIAL DURABILITY 🏆

Yan Liu’s research has profound implications for the construction industry, particularly in enhancing the durability of materials used in high-temperature settings. His work on MKPC not only provides a deeper understanding of the material's behavior but also introduces practical solutions to improving fireproof and patching materials used in critical infrastructure projects.

ADVANCED CEMENT COMPOSITES 📚

Yan Liu has dedicated his career to advancing the performance of cement composites, focusing on the mechanical properties and interface mechanisms of materials like epoxy resin and CFRP. His research is geared toward creating tougher, more resilient building materials that can withstand both environmental stress and long-term wear, ensuring greater safety and reliability.

PASSION FOR SUSTAINABILITY 🌍

In addition to improving material performance, Yan Liu is passionate about sustainability in construction. His research into utilizing industrial by-products like fly ash and silica fume supports the industry’s shift towards greener, more sustainable practices. By reducing the environmental footprint of construction materials, his work aligns with global efforts toward sustainable development.

NOTABLE PUBLICATION

Title: Interface Mechanism and Mechanical Properties of Micron PS Epoxy Resin Toughened Steel-CFRP
Authors: Chen, Z., Yan, Z., Liu, Y., Peng, L.
Journal: Bulletin of the Chinese Ceramic Society
Year: 2024

Title: Fatigue Performance of Self-bonded Prestressed CFRP Repaired Steel Plates Containing Defects
Authors: Chen, Z.-Y., Liu, Y., Wang, S.-Q., Yan, Z.-Z., Peng, H.
Journal: Zhongguo Gonglu Xuebao/China Journal of Highway and Transport
Year: 2024

Title: Analysis of Residual Stresses in Curved Cutouts of Steel Box Girder Transverse Diaphragms
Authors: Wang, R., Xiong, Y., Ni, H., Liu, Y., Chen, Z.
Journal: Advances in Civil Engineering
Year: 2024

Title: Dynamic Frequency and Wet Mode of the Supporting Cables of a Submerged Floating Tunnel in Tube Motion State
Authors: Zhu, C., Liu, Y., Yi, Z.
Journal: Zhendong yu Chongji/Journal of Vibration and Shock
Year: 2024

Title: Study of Mechanical Properties of Micron Polystyrene-Toughened Epoxy Resin
Authors: Li, C., Liu, Y., Chen, Z.
Journal: Applied Sciences (Switzerland)
Year: 2023

SURIYAPRAKASH – Advanced Concrete Technology – Best Researcher Award

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SURIYAPRAKASH - Advanced Concrete Technology - Best Researcher Award

SRM Institute of Science and Technology - India

AUTHOR PROFILE

SCOPUS

CAREER OBJECTIVE

SURIYAPRAKASH aims to secure a challenging position that allows for effective contribution of skills and abilities while fostering professional growth through resourcefulness, innovation, and flexibility.

PROFESSIONAL EXPERIENCE

Currently, Suriyaprakash is a Research Assistant at the Center for Environmental Nuclear Research, SRMIST, where he has been working since July 2019. Prior to this, he was a Research Scholar at the same center from January 2016 to June 2019 and a Research Associate in the Department of Biotechnology, SRMIST from July 2012 to June 2014. He has also held the position of Research Assistant at SRMIST from July 2010 to May 2011 and served as Office In-charge (Maintenance) in SRM Hostels, SRM University from September 2010 to December 2015.

TEACHING EXPERIENCE

Suriyaprakash has part-time teaching experience at CSC Computer Education, Valapaadi, Salem, where he worked from July 2005 to August 2006. His responsibilities included observing and evaluating student performance, developing schemes of work and lesson plans, and providing various learning materials and resources.

JOB RESPONSIBILITIES

Throughout his career, he has been responsible for maintaining records, preparing bills in ERP, controlling hostel systems, handling office works, receiving student complaints, maintaining student attendance, and ensuring compliance with hostel rules and regulations.

ADDITIONAL COURSES

Suriyaprakash has completed several additional courses, including a Diploma in Medical Lab Technician (DMLT) from Naga Institute of Paramedical Science, certified by Bharat Sevak Samaj, a Diploma in Computer Application (DCA) from CSC Computer Education, and Medical Coding from Tech Skills, Anna Nagar, Chennai.

RESEARCH AND DEVELOPMENT

His research experience includes projects funded by IGCAR at the Center for Environmental Nuclear Research, where he has been involved in significant research activities contributing to advancements in environmental nuclear research.

ADMINISTRATIVE ROLES

In addition to his research and teaching roles, Suriyaprakash has also managed administrative tasks such as maintaining hostel systems and records, preparing ERP bills, and supervising student activities and compliance with regulations at SRM University Hostels.

NOTABLE PUBLICATION

Electrospun nanofibers synthesized from polymers incorporated with bioactive compounds for wound healing 2024

VENKATESWARA RAO – Concrete making materials – Best Researcher Award

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VENKATESWARA RAO - Concrete making materials - Best Researcher Award

National Institute of Technology Warangal - India

AUTHOR PROFILE

GOOGLE SCHOLAR

ACADEMIC QUALIFICATIONS

VENKATESWARA RAO holds a B.Tech. in Civil Engineering from J. N. T. College of Engineering, Kakinada, achieving First Class honors. He earned his M.Tech. in Structural Engineering with Distinction from J. N. T. U, Hyderabad, followed by a Ph.D. in Civil Engineering from J. N. T. University, Hyderabad.

TEACHING EXPERIENCE

With 23 years of teaching experience, RAO is currently a Professor at the National Institute of Technology, Warangal. He served as Associate Professor and Assistant Professor at the same institution and previously taught as a Lecturer at V. R. Siddhartha Engineering College, Vijayawada. His expertise spans subjects such as Steel Structures, Mechanics of Materials, Concrete Technology, and Surveying at the B.Tech. level, and Theory of Elasticity and Rehabilitation of Structures at the M.Tech. level.

RESEARCH INTERESTS

RAO's research focuses on Self-Compacting Concrete, Geopolymer Concrete, and Fiber Reinforced Concrete, with a particular emphasis on the durability and innovative applications of these materials.

INTERNATIONAL COLLABORATION

He has been selected as a research scientist under the National Scholarship Programme of the Slovak Republic, spending time at the Slovak Academy of Science and Instituto Superior Técnico, Technical University of Lisbon, Portugal, enhancing his research perspectives and international collaboration.

REVIEWER AND ADMINISTRATIVE ROLES

RAO serves as a reviewer for esteemed journals including ACI - Structural and Material Journal, Elsevier - Journal of Building Engineering, Elsevier - Journal of Sustainable materials and Technologies, and SERC - Journal of Structural Engineering. He has held administrative positions such as Associate Dean and Coordinator at NIT Warangal, contributing significantly to research and consultancy activities.

INNOVATIVE TEACHING METHODS

He is known for adopting innovative teaching methods, including preparing PPT presentations for various subjects to enhance learning experiences for students.

Gholamreza Baghban Golpasand – Fiber Reinforced Concrete – Environmental Leadership in Civil Engineering Award

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Gholamreza Baghban Golpasand - Fiber Reinforced Concrete - Environmental Leadership in Civil Engineering Award

Seraj higher education of institute - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

GHOLAMREZA BAGHBAN GOLPASAND: EXPERT IN STEEL FIBER REINFORCED CONCRETE 🏗️

Gholamreza Baghban Golpasand is a distinguished researcher at Seraj Higher Education Institute, specializing in the behavior of recycled steel fiber reinforced concrete (SFRC) under various stress conditions. His work delves into the uniaxial cyclic compression and biaxial tests of SFRC, significantly contributing to the understanding and improvement of construction materials.

PIONEER IN STEEL FIBER REINFORCED CONCRETE RESEARCH 🏢

Gholamreza has made notable advancements in the study of steel fiber reinforced concrete, focusing on its performance under uniaxial cyclic compression and biaxial tests. His research is crucial for enhancing the durability and resilience of construction materials, which is vital for modern infrastructure.

FEM INVESTIGATION OF SFRCs USING SUBSTEPPING INTEGRATION 📊

One of his significant research contributions includes the finite element method (FEM) investigation of SFRCs. He employs a substepping integration approach for constitutive equations, providing a more accurate and detailed analysis of SFRC behavior. This method improves the predictive capabilities for the material's performance under various conditions.

CITATIONS AND RESEARCH IMPACT 📚

Since 2019, Gholamreza's work has garnered 49 citations, reflecting the impact and relevance of his research in the field of concrete technology. His citation count is a testament to the significance of his contributions to the academic and engineering communities.

ACADEMIC INFLUENCE: H-INDEX AND I10-INDEX 📈

Gholamreza boasts an h-index of 2 and an i10-index of 1, indicating his research's influence and the number of publications that have received significant citations. These metrics highlight his role as a leading researcher in the field of steel fiber reinforced concrete.

ADVANCING CONSTRUCTION MATERIALS SCIENCE 🔧

Through his work, Gholamreza is advancing the science of construction materials, particularly recycled steel fiber reinforced concrete. His research addresses critical aspects of material performance, contributing to the development of more sustainable and durable construction practices.

EDUCATOR AND MENTOR AT SERAJ HIGHER EDUCATION INSTITUTE 🎓

At Seraj Higher Education Institute, Gholamreza is not only a researcher but also an educator, guiding the next generation of engineers and researchers. His expertise and dedication to teaching ensure that his knowledge and innovations are passed on to future leaders in the field.

COMMITTED TO SUSTAINABILITY AND INNOVATION 🌍

Gholamreza's research emphasizes the use of recycled materials, promoting sustainability in construction. His innovative approaches to material testing and analysis are paving the way for more eco-friendly and efficient building practices, reflecting his commitment to sustainable development.

NOTABLE PUBLICATION

Triaxial behavior of concrete containing recycled fibers-an experimental study 2023

Investigation on the efficiency of different methods for evaluation of ground settlement due to excavation of Tabriz metro tunnel, line 2 2022 (1)

Behavior of recycled steel fiber reinforced concrete under uniaxial cyclic compression and biaxial tests 2020 (39)

Experimental and numerical investigation of the effect of steel fiber on fiber reinforced concrete under multiaxial compression 2021 (2)

Dr. Mahmoud Ahmed Ismail Gharieb – concrete – Best Researcher Award

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Dr. Mahmoud Ahmed Ismail Gharieb - concrete - Best Researcher Award

Housing & Building National Research Center - Egypt

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS

Dr. Mahmoud Ahmed Ismail Gharieb embarked on his academic journey with a Bachelor of Science degree in Applied Chemistry from Al-Azhar University in May 2009. He continued his education by pursuing a Master of Science (M.Sc.) in Chemistry at Al-Azhar University, followed by a Doctor of Philosophy (Ph.D.) degree from Ain Shams University, both focusing on advancing knowledge in the field of concrete materials and their applications.

PROFESSIONAL ENDEAVORS

Dr. Gharieb has accumulated significant professional experience in the field of concrete materials and building chemistry. He currently serves as the Dr. of Chemistry of Building and Concrete Materials at the Housing and Building Research Center in Egypt. His expertise extends to lecturing at Beni-Suef University, consulting for ceramic and concrete additive factories, and managing technical laboratories for X-ray fluorescence (XRF) and thermal analysis devices.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Gharieb's research focuses on improving the technological properties of building materials, particularly concrete. His contributions span various projects and theses, ranging from enhancing the durability of concrete in corrosive marine environments to exploring the suitability of different concrete constituents for radiation shielding and waterproofing insulation.

IMPACT AND INFLUENCE

Dr. Gharieb's work has made a significant impact in the field of concrete materials and construction. His research findings have been disseminated through numerous publications and conference presentations, contributing to advancements in concrete technology and sustainable construction practices. Additionally, his role as a supervisor for several theses underscores his influence in shaping the next generation of researchers in the field.

ACADEMIC CITES

Dr. Gharieb's scholarly contributions have garnered recognition and citations, reflecting the relevance and significance of his research in the concrete industry. His expertise in concrete materials and his commitment to advancing knowledge in the field have earned him respect among his peers and colleagues.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Gharieb's legacy lies in his dedication to advancing the science and technology of concrete materials. His future contributions are expected to further expand our understanding of concrete performance, durability, and sustainability, paving the way for innovative solutions to challenges in the construction industry.

CONCRETE IN FOCUS

Dr. Mahmoud Ahmed Ismail Gharieb's professional journey exemplifies a commitment to advancing the science and technology of concrete materials. From his early academic pursuits to his current role as a leading expert in the field, Dr. Gharieb's contributions have made a significant impact on the construction industry in Egypt and beyond. With a focus on improving concrete performance and sustainability, he continues to shape the future of concrete materials through research, teaching, and innovation.

NOTABLE PUBLICATION

Preparatory Study about Effect of Feldspar on Properties of Alkali-Activated Slag Concrete.  2023 (2)