Prof Dr. Ahmed Samir Abdalla Eisa, Zagazig University, Egypt.
Dr. Ahmed Samir Abdalla Eisa, Ph.D., P.E., is a Professor and Head of the Structural Engineering Department at Zagazig University, Egypt. With a career spanning over two decades, he has made significant contributions to structural engineering, specializing in reinforced and prestressed concrete, damage modeling, and sustainable construction materials. Dr. Eisa holds a Ph.D. in Structural Engineering, focusing on the strengthening of reinforced concrete columns using CFRP. His dedication to teaching, research, and innovation has established him as a leader in academia and engineering. He is a registered Professional Engineer and an advocate for sustainable engineering solutions.
Ph.D. in Structural Engineering, Zagazig University, Egypt (2010)
Master of Science in Structural Engineering, Zagazig University, Egypt (2005)
Bachelor of Science in Civil Engineering, Zagazig University, Egypt (2001, with Honors)
Experience
Head, Structural Engineering Department, Zagazig University (Feb 2024 – Present)
Professor, Structural Engineering Department, Zagazig University (2020 – Present)
Associate Professor, Structural Engineering Department, Zagazig University (2015 – 2020)
Lecturer, Structural Engineering Department, Zagazig University (2010 – 2015)
Teaching Assistant, Zagazig University (2005 – 2010)
Research Assistant, Zagazig University (2001 – 2005)
Suitability For The Award
Dr. Ahmed Samir Abdalla Eisa is a leading expert in structural engineering, specializing in reinforced concrete behavior, multi-hazard testing, and sustainable construction materials. His research on strengthening concrete columns, damage modeling, and innovative use of materials like nano-metakaolin and recycled waste has significantly advanced the field. With over two decades of academic and professional experience, Dr. Eisa’s contributions make him highly deserving of the Best Researcher Award for his impactful work.
Professional Development
Dr. Ahmed Samir Abdalla Eisa is a registered Professional Engineer (Egyptian Engineers Syndicate, License No. 6872/1). His professional journey emphasizes bridging academia and industry through innovative teaching and groundbreaking research. Over the years, he has taught undergraduate and graduate courses at Zagazig University and the University of Calgary, focusing on concrete design, material technology, and sustainable construction. Through his leadership, Dr. Eisa has championed advancements in civil engineering education and research, earning recognition for his impactful contributions to the field.
Research Focus
Dr. Eisa’s research centers on advancing structural engineering through innovative solutions. He specializes in non-linear behavior and modeling of reinforced and prestressed concrete elements, blast damage modeling, and multi-hazard experimental testing. His work also explores sustainable materials, including nano-metakaolin, hybrid fibers, geopolymer concrete, and recycled post-consumer wastes. Dr. Eisa’s focus on integrating sustainability with engineering ensures his research has both practical applications and environmental benefits. He is committed to enhancing the durability and safety of concrete structures while reducing their ecological footprint.
Awards and Honors
Registered Professional Engineer (Egyptian Engineers Syndicate, License No. 6872/1)
Honor Graduate, Bachelor of Science in Civil Engineering, Zagazig University (2001)
Recognition for exceptional contributions to structural engineering research and education
Lead academician for curriculum enhancement in structural engineering education
Publications
“Numerical Analysis of Rubberized Steel Fiber Reinforced Concrete Beams Subjected to Static and Blast Loadings”
“Experimental and Numerical Study of Strengthening Prestressed Reinforced Concrete Beams Using Different Techniques”
“Strengthening of Reinforced Concrete Columns Using Ultra-High Performance Fiber-Reinforced Concrete Jacket”
“Experimental Investigation of Self-Compacting Concrete with Recycled Concrete Aggregate”
“Experimental Study on the Structural Response of Reinforced Fly Ash-Based Geopolymer Concrete Members”
Dr. R. Mohanraj , SRM University, Delhi-NCR, India.
Dr. R. Mohanraj, an accomplished civil engineer and educator, specializes in structural engineering with a Ph.D. from Anna University, Chennai (2023). Currently an Assistant Professor at SRM University, Delhi-NCR, he brings over eight years of academic and industrial expertise. His innovative research on enhancing concrete with natural additives highlights his commitment to sustainable engineering. Dr. Mohanraj has organized numerous workshops and seminars, enriching civil engineering education and research. A passionate mentor and member of professional bodies like ICI and ISTE, he strives to inspire the next generation of engineers.
Dr. R. Mohanraj is a promising candidate for the Young Scientist Award, demonstrating a strong academic and professional background in Structural Engineering. His education, research, and teaching experiences make him an ideal nominee for this prestigious recognition.
Professional Development
Dr. R. Mohanraj is actively engaged in advancing civil engineering education and research. He has organized faculty development programs, hands-on workshops, and seminars on computational methods, modern building materials, and design techniques. His projects, such as enhancing concrete strength with nano-silicon dioxide, demonstrate his commitment to innovation. He participates in national and international development programs, including AICTE and MHRD-sponsored training on advanced structural methods. A skilled user of engineering tools like Revit and AutoCAD, he ensures his students gain practical, industry-relevant knowledge. His active roles in NAAC coordination and placement activities further his dedication to academic excellence.
Research Focus
Dr. Mohanraj’s research centers on sustainable and innovative materials in civil engineering. His Ph.D. explored the use of Euphorbia Tortilis cactus extract as a natural additive to enhance concrete properties. He continues to investigate novel materials like nano-silicon dioxide to improve concrete strength and durability. His work emphasizes environmentally friendly solutions for construction challenges, aligning with global sustainability goals. His focus includes computational methods, dynamic transport systems, and water treatment technologies, contributing to advanced civil engineering techniques for a greener future.
Awards and Honors
Certificate of Appreciation for 100% results in Prefabricated Structures, Excel Engineering College.
Cash Award of ₹11,000 for producing 93% results in 2015-16, Excel Group Institutions.
Best Result Achiever in Design of RC Elements (87.9%), Excel Group Institutions.
Certificate of Appreciation for excellence in Engineering Mechanics and Prefabricated Structures.
Recognized for NAAC coordination and placement achievements.
Publications
Enhancing concrete flexural behaviour with Euphorbia Tortilis cactus: Sustainable additive for improved load-carrying capacity and ductility Indian Journal of Engineering and Materials Sciences, 2024, 31(3), pp. 388–396. Cited by: 0
Characterization of Euphorbia Tortilis Cactus Concrete Specimen by 3D X-ray Tomography Russian Journal of Nondestructive Testing, 2024, 60(6), pp. 692–698. Cited by: 1
Evaluation of compressive strength of Euphorbia Tortilis cactus infused M25 concrete by using ABAQUS under static load Materials Letters, 2024, 356, 135600. Cited by: 6
Comparative analysis of aramid fiber reinforced polymer for strengthening reinforced concrete beam-column joints under cyclic loading Materialwissenschaft und Werkstofftechnik, 2024. Cited by: 0
Enhancing concrete beam performance with PVA fibers, coal ash, and graphene fabric: A comprehensive structural analysis International Journal of Coal Preparation and Utilization, 2024. Cited by: 0
Testing and Evaluation of Buckling and Tensile Performance of Glass Fiber-Reinforced Polymer Angle Section with Different Joints/Connections Journal of Testing and Evaluation, 2024, 52(1). Cited by: 2
Sun Xiaoluan is an Associate Professor and National Level Registered Structural Engineer, specializing in wood structures and structural engineering. His work focuses on teaching, research, and the promotion of wood structure technology. He has contributed to several national and local standards, as well as educational materials, particularly in seismic-resistant technologies for buildings. Sun has received numerous awards for his achievements in architectural design and construction innovation, including provincial and national recognitions. He is an active member of professional organizations such as the Architectural Society of China and the Bamboo and Wood Structure Committee of Jiangsu Province.
National Level Registered Structural Engineer since 2011
Extensive experience in wood structure research and design
Editor of teaching materials and national standards for wood structures
Suitability for The Award
Dr. Sun Xiaoluan is an exemplary candidate for the Best Researcher Awards due to his extensive contributions to the field of structural engineering, particularly in the domain of wood structures. His dedication to advancing knowledge through teaching, research, and technology promotion sets him apart as a leader in his field.
Professional Development ()
Sun Xiaoluan is an accomplished researcher and educator in the field of wood structure engineering. He has played a key role in editing essential educational resources and standards that have advanced the field. His expertise in large-span wood structure systems and seismic-resistant technology has contributed to several construction innovations. Sun Xiaoluan’s research has made a profound impact on the architectural community, promoting sustainable building practices and improving the structural resilience of buildings. He continues to lead projects and serve as a mentor, significantly shaping the future of structural engineering.
Research Focus
Sun Xiaoluan’s research is primarily centered on the performance and design of large-span wood structures. His work explores new systems for large-span wood mesh shells and advances the design theory of wood structures. Additionally, his research contributes to the development of sustainable construction techniques, emphasizing structural durability and safety, especially in areas prone to seismic activity. His innovative approach promotes the use of wood in modern architecture while ensuring that structures meet rigorous engineering standards.
Awards and Honors ()
Second Prize, Ministry of Education Higher Education Scientific Research Outstanding Achievement Award
First Prize, Jiangsu Provincial Scientific and Technological Progress Award
Second Prize, Jiangsu Provincial Construction Science and Technology Award
First Prize, Jilin Provincial Outstanding Architectural Design Award
First Prize, National Green Building Innovation Award
Gold Medal, Architectural Design Award, Architectural Society of China
Publication
Analysis of Seismic Responses and Vibration Serviceability in a High-Rise Timber–Concrete Hybrid Building – 0 citations (2024)
Research on axial slip stiffness of the multi-bolted joint with slotted-in steel plate in reticulated timber shells – 2 citations (2021)
Rotational behavior and modeling of bolted glulam beam-to-column connections with slotted-in steel plate – 7 citations (2020)
Nonlinear finite element analysis of stability of K6-type single layer spherical timber latticed shell – 5 citations (2020)
Experimental investigation on mechanical performance of K6 single-layer reticulated glulam shells – 7 citations (2017)
Mechanical performance of single-layer reticulated glulam shells with semi-rigid prefabricated planted-bar joints – 4 citations (2017)
Behavior of Glulam Columns Reinforced by Near-Surface-Mounted CFRP Laminates under Eccentric Compression Loading – 19 citations (2016)
Experimental investigation on eccentric compression performance of semi-rigid joints in reticulated timber shells – 0 citations (2016)