Ahmed Elbady – Structural Engineering – Best Researcher Award

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Ahmed Elbady - Structural Engineering - Best Researcher Award

Sherbrooke University - Canada

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Ahmed Elbady's academic journey began with a strong foundation in Civil Engineering, culminating in multiple degrees including a Ph.D. in Civil Engineering from Sherbrooke University, Canada, and two M.Sc. degrees from Helwan University, Egypt. His academic pursuits provided him with comprehensive knowledge and expertise in Structural Engineering.

PROFESSIONAL ENDEAVORS

Ahmed Elbady has amassed over eight years of professional experience in Structural Engineering, working on diverse projects ranging from institutional and residential buildings to industrial facilities and infrastructure projects. His roles in various engineering consultant offices in Egypt involved structural analysis, design, and supervision, showcasing his proficiency in utilizing software such as ETABS, CSI-Column, and AutoCAD.

CONTRIBUTIONS AND RESEARCH FOCUS

Elbady's research focus lies in the field of Structural Engineering, particularly in the behavior and performance of precast concrete tunnel segments reinforced with Glass Fiber Reinforced Polymers (GFRP) bars under various loading conditions. His doctoral thesis and numerous publications in reputed journals and conference proceedings highlight his contributions to advancing knowledge in this specialized area of Structural Engineering.

IMPACT AND INFLUENCE

Elbady's research findings have had a significant impact on the understanding of punching-shear behavior and the effectiveness of GFRP reinforcement in precast concrete tunnel segments. His technical presentations and reports have disseminated valuable insights to the academic and engineering communities, contributing to the adoption of innovative materials and design practices in the field of Structural Engineering.

ACADEMIC CITATIONS

Elbady's publications in prestigious journals and conferences have garnered academic citations, attesting to the relevance and scholarly impact of his research in Structural Engineering. His contributions have advanced the knowledge frontier in precast concrete tunnel segment design and reinforced concrete structures.

LEGACY AND FUTURE CONTRIBUTIONS

Elbady's dedication to advancing knowledge and practice in Structural Engineering ensures a lasting legacy in the field. His ongoing research endeavors and commitment to mentoring future generations of engineers will continue to shape the future of Structural Engineering, fostering innovation and excellence in the built environment.

STRUCTURAL ENGINEERING

Ahmed Elbady's expertise in Structural Engineering is evident throughout his academic pursuits, professional endeavors, and research focus. His contributions to the field have enhanced understanding and practice in structural analysis, design, and performance evaluation, cementing his reputation as a prominent figure in Structural Engineering.

NOTABLE PUBLICATION

Effect of test parameters on the punching-shear strength of precast tunnel segments reinforced with GFRP bars.  2023

Walid Mansour | structural engineering | Young Scientist Award

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AUTHOR PROFILE
Scopus
Google Scholar
EARLY ACADEMIC PURSUITS:

Walid Mansour's academic journey in engineering began with early pursuits that laid the foundation for his scholarly endeavors. This phase encompasses his educational background, achievements, and key milestones during the initial stages of his academic development.

PROFESSIONAL ENDEAVORS:

Transitioning from academia to the professional realm, Mansour's career in engineering unfolded with diverse endeavors. This includes roles, projects, and collaborations that reflect the practical application of his engineering knowledge, showcasing the breadth of his skills in a professional context.

CONTRIBUTIONS AND RESEARCH FOCUS:

Mansour's contributions and research focus constitute a pivotal aspect of his identity in the engineering domain. This involves scholarly publications, participation in research projects, or advancements within specific engineering disciplines, providing insights into the thematic concentration of his contributions.

IMPACT AND INFLUENCE:

The assessment of Mansour's impact and influence involves recognizing the broader effects of his work within the engineering community. This encompasses positive outcomes in engineering practice, acknowledgment within his professional network, and any influence he may have had on colleagues or the engineering field at large.

ACADEMIC CITES:

An indicator of Mansour's academic influence is reflected in the number of citations his work has garnered. High citation metrics suggest that his research has made a significant contribution to the academic discourse, with fellow engineers referencing his work in their own studies.

LEGACY:

\Walid Mansour's legacy is defined by the lasting impact he leaves in the field of engineering. This may include contributions to engineering education, mentorship of aspiring engineers, and the establishment of a positive and collaborative culture within the engineering community.

FUTURE CONTRIBUTIONS:

Looking ahead, Mansour's future contributions in engineering may involve continued advancements in both academic and professional realms. This could encompass further research, participation in impactful engineering projects, mentorship of emerging engineers, and potentially taking on leadership roles that contribute to the growth and development of the engineering field.

CITATIONS
All Since 2018
Citations 717 704
h-index 16 16
i10-index 18 17
NOTABLE PUBLICATION

Shear behaviour of RC beams strengthened by various ultrahigh performance fibre-reinforced concrete systems.  2020 (80)

Properties of ultra-high-performance fiber-reinforced concrete (UHPFRC)—A review paper.  2019 (72)

Structural Engineering

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Structural Engineering

Introduction to Structural Engineering: Structural engineering is a specialized discipline within civil engineering that focuses on the design, analysis, and construction of structures such as buildings, bridges, dams, and towers. Structural engineers are responsible for ensuring that these structures are safe, stable, and capable of withstanding various loads and environmental conditions.

Subtopics in Structural Engineering:

  1. Seismic Engineering: Seismic engineers specialize in designing structures to resist the forces generated by earthquakes. They employ advanced techniques and materials to ensure buildings and infrastructure can withstand seismic events and protect public safety.
  2. Structural Analysis and Design: This core subfield involves the analysis of structural systems to determine their strength, stability, and load-bearing capacity. Structural engineers use mathematical models and computer simulations to design safe and efficient structures.
  3. Structural Health Monitoring: Structural health monitoring experts develop systems and sensors to continuously assess the condition of structures. This enables early detection of damage or deterioration, allowing for timely maintenance and safety improvements.
  4. Tall Building Design: Engineers in this subtopic focus on the unique challenges associated with designing and constructing tall buildings and skyscrapers. They address factors such as wind loads, lateral stability, and vertical transportation systems.

Sustainable Structural Design: Sustainable structural engineering emphasizes eco-friendly construction materials, energy-efficient design practices, and environmentally responsible construction methods to reduce the environmental impact of buildings and infrastructure.