Dr. Yu Wayne Wang – Concrete – Outstanding Scientist Award

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Dr. Yu Wayne Wang - Concrete - Outstanding Scientist Award

University of Salford - United Kingdom

EARLY ACADEMIC PURSUITS

Dr. Yu Wayne Wang embarked on his academic journey with a Bachelor's degree in Automotive Engineering from Wuhan University of Technology, China. He then pursued a Master's degree in Engineering Mechanics at Chongqing University, China, before furthering his education with a PhD in Civil Engineering from Aston University, UK. His diverse educational background laid the foundation for his interdisciplinary approach to research and teaching.

PROFESSIONAL ENDEAVORS

Wang's professional career spans various roles in academia, with a focus on teaching and research in civil engineering. From his early years as a Research Fellow at the University of Plymouth, UK, to his current position as an Associate Professor/Reader at the University of Salford, UK, he has demonstrated a commitment to advancing knowledge in construction materials, structural durability, and environmental sustainability Concrete.

CONTRIBUTIONS AND RESEARCH FOCUS on CONCRETE

Dr. Wang's research interests lie in the areas of construction materials, structural durability, and environment. His work encompasses topics such as the hydro-physics of construction materials, unsaturated hydrology, and material-environment interaction. Through his research, he aims to address pressing challenges in infrastructure development and contribute to the advancement of sustainable infrastructure practices.

IMPACT AND INFLUENCE

Wang's research has made significant contributions to the field of civil engineering, with implications for both academia and industry. His expertise in construction materials and structural durability has led to innovative solutions for enhancing the performance and longevity of infrastructure systems. His research findings have been disseminated through peer-reviewed publications, conferences, and collaborative projects, shaping the discourse on sustainable infrastructure development Concrete.

ACADEMIC CITATIONS

Dr. Wang's publications have garnered citations from scholars and researchers worldwide, reflecting the relevance and impact of his work in the academic community. His contributions to the understanding of construction materials and their interaction with the environment have been recognized and cited in leading journals and conferences in civil engineering and related fields.

LEGACY AND FUTURE CONTRIBUTIONS

As a leading figure in the field of civil engineering, Dr. Yu Wayne Wang's legacy lies in his dedication to advancing knowledge and fostering innovation in sustainable infrastructure. His interdisciplinary approach to research and teaching, coupled with his commitment to excellence, positions him as a thought leader and catalyst for positive change in the built environment. His future contributions are expected to further enrich the field of civil engineering, addressing emerging challenges and advancing sustainable infrastructure practices.

NOTABLE PUBLICATION

Experimental study of temperature effect on the mechanical tensile fatigue of hydrated lime modified asphalt concrete and case application for the analysis of climatic effect on constructed pavement.  

Year: 2022
Citation: 02

Jaber Taheri-Shakib – concrete – Best Researcher Award

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Jaber Taheri-Shakib - concrete - Best Researcher Award

AUTHOR PROFILE

Scopus
ORCID

EARLY ACADEMIC PURSUITS

Jaber Taheri-Shakib began his academic journey with a strong focus on chemical engineering, completing his Bachelor's, Master's, and Ph.D. degrees at renowned institutions in Iran. His research during these formative years laid the groundwork for his future contributions to the field.

PROFESSIONAL ENDEAVORS

Taheri-Shakib's professional career is marked by diverse roles in academia, industry, and research institutions. From his tenure as a lecturer at various universities to his current position as a senior researcher at the Research Institute of Petroleum Industry, his expertise in areas such as numerical analysis, experimental research, and instruction in programming languages has been instrumental in advancing the field of civil engineering.

CONTRIBUTIONS AND RESEARCH FOCUS CONCRETE

Taheri-Shakib's research primarily revolves around the study of porous media, with a particular emphasis on concrete and asphalt materials. His investigations into topics such as electromagnetic wave interaction, fluid flow, and phase behavior modeling have significantly contributed to our understanding of these complex systems. Additionally, his work in material science and image analysis has opened new avenues for studying and improving concrete and asphalt materials.

IMPACT AND INFLUENCE

Taheri-Shakib's research has left a lasting impact on the field of civil engineering, particularly in the area of porous media characterization and modeling. His publications in reputable journals and presentations at international conferences have garnered attention from researchers worldwide, further solidifying his influence in the academic community.

ACADEMIC CITATIONS

Taheri-Shakib's publications have been cited extensively in the scientific literature, reflecting the significance of his contributions to the field. His research on topics such as asphaltene deposition, wettability alteration, and fluid flow modeling has been referenced by peers and scholars in numerous studies, showcasing the breadth and depth of his impact concrete.

LEGACY AND FUTURE CONTRIBUTIONS

As a leading figure in civil engineering and porous media research, Jaber Taheri-Shakib's legacy includes groundbreaking discoveries, innovative methodologies, and mentorship of future researchers. His ongoing work in concrete and asphalt materials, coupled with his expertise in computational modeling and experimental techniques, is poised to shape the future of civil engineering and materials science.

NOTABLE PUBLICATION

A review of microstructure characterization of asphalt mixtures using computed tomography imaging: Prospects for properties and phase determination.

Year : 2023
Citation : 10

Bijaya Rai – Material Development-concrete – Best Researcher Award

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Bijaya Rai -Material Development-concrete- Best Researcher Award

University of Connecticut - United States

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Bijaya Rai embarked on his academic journey with a Bachelor's degree in Civil Engineering from Purbanchal University, Nepal, where he graduated as a university topper with distinction. He further pursued a Master's degree in Civil-Structural Engineering from Oklahoma State University, where he delved into research on concrete mixtures to mitigate shrinkage cracking in bridge decks. Currently, he is pursuing a Ph.D. in Civil-Structural Engineering at the University of Connecticut, focusing on structural analysis and design, particularly in material development-concrete.

PROFESSIONAL ENDEAVORS:

With over four years of experience in academia, research, and teaching, coupled with over three years of industry exposure, Bijaya has evolved into an independent researcher with a solid foundation in structural engineering. His expertise lies in the research, analysis, and design of structures, with a specific focus on material development-concrete.

CONTRIBUTIONS AND RESEARCH FOCUS:

Bijaya's contributions to the field of Civil-Structural Engineering center around material development-concrete. His research endeavors include the resource-efficient design and characterization of non-proprietary ultra-high-performance concrete (UHPC), aimed at enhancing the durability and sustainability of concrete structures. His work encompasses projects related to UHPC development, testing, and implementation into the construction industry, with a keen emphasis on efficiency and sustainability.

IMPACT AND INFLUENCE:

Through his research, Bijaya aims to make a significant impact on the construction industry by promoting the adoption of sustainable and durable concrete materials. His work has the potential to influence construction practices, infrastructure development, and environmental conservation efforts by introducing innovative concrete solutions that enhance structural performance while minimizing environmental impact.

ACADEMIC CITES:

Bijaya's research findings have likely been cited in academic circles, contributing to the dissemination of knowledge and advancements in material development-concrete. His publications and presentations at renowned conferences serve as valuable contributions to the academic community, fostering dialogue and collaboration in the field of structural engineering.

LEGACY AND FUTURE CONTRIBUTIONS:

Bijaya Rai's legacy in Civil-Structural Engineering is marked by his dedication to advancing material development-concrete. His future contributions are anticipated to further shape the field by addressing contemporary challenges in infrastructure development, sustainability, and structural resilience through innovative concrete solutions.

MATERIAL DEVELOPMENT-CONCRETE FOCUS:

Bijaya Rai's academic pursuits, professional endeavors, and research focus converge around material development-concrete. With a Ph.D. in Civil-Structural Engineering from the University of Connecticut, he is poised to lead groundbreaking research initiatives that revolutionize the construction industry's approach to concrete materials, fostering sustainability, durability, and resilience in structural design and construction.

NOTABLE PUBLICATION

Time-dependent properties of steam cured non-proprietary ultra high-performance concretes.  2024