Mayen Geu | Civil Engineering | Best Researcher Award

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Mr. Mayen Geu | Civil Engineering | Best Researcher Award 

Mr. Mayen Geu | Civil Engineering | PhD Candidate at University of South Australia | Australia

Mr. Mayen Geu is a dedicated civil and structural engineering professional whose academic and research career reflects a strong commitment to sustainable infrastructure development. His professional journey bridges the gap between theory and practice, as he has held academic positions in both teaching and research, while also serving in engineering roles across industry. He is known for his scholarly contributions to the study of sustainable concrete materials and structural performance, with a focus on the durability of alternative cementitious composites. His professional trajectory highlights his passion for combining advanced research with real-world engineering applications, ensuring that his academic outputs contribute directly to sustainable construction practices.

Academic Profile 

ORCID

Education

Mr. Mayen Geu holds a doctorate in civil and structural engineering from the University of South Australia, with his doctoral research centered on the durability performance of concrete produced using clay minerals and recycled components. His advanced research builds on earlier studies completed during his postgraduate training in structural and geotechnical engineering at Griffith University. He also completed undergraduate studies in civil and project management engineering at the University of South Australia. His educational pathway demonstrates a consistent emphasis on structural performance, geotechnical behavior, and materials research, forming a strong academic foundation that supports his research and teaching excellence.

Experience

Mr. Mayen Geu has a wealth of experience in both academia and professional engineering. He has served as a lecturer in civil engineering, where he delivered courses on reinforced concrete design and foundation engineering, while also taking on leadership responsibilities such as acting head of a civil engineering department. In his current academic role at the University of South Australia, he teaches mechanics of materials and reinforced concrete design, providing students with practical insights and research-informed learning. His teaching approach combines experimental work with theoretical understanding, preparing students for professional engineering practice. Beyond academia, he has worked as a project civil engineer and graduate engineer, contributing to the design, procurement, and supervision of construction projects in Australia. This professional background allows him to integrate field experience with research and classroom teaching, enriching the academic environment for his students.

Research Interest

The primary research interests of Mr. Mayen Geu focus on the sustainability and durability of cementitious composites, particularly concrete incorporating calcined clays and recycled fibers. His work emphasizes optimizing material performance, improving microstructural properties, and reducing the environmental impact of construction. He has investigated the influence of calcination processes on metakaolin reactivity, the durability of concrete reinforced with recycled plastic fibers, and the structural performance of innovative composite systems. His research aims to contribute to a more resilient and sustainable construction industry by integrating alternative raw materials and enhancing long-term performance characteristics. These efforts align with global sustainability goals and provide critical insights into the future of environmentally conscious infrastructure development.

Award

Mr. Mayen Geu has been recognized with research and academic scholarships, including the prestigious Research Training Program Scholarship in Australia. His academic excellence and leadership in teaching and research have been consistently acknowledged through faculty commendations and student recognition. His commitment to advancing sustainable construction technologies positions him as a strong candidate for international research awards, highlighting both his academic achievements and his contributions to community development through engineering education.

Selected Publications

  • “Optimising calcination temperature for high reactivity metakaolin: influence on amorphous content, mineralogy, and microstructure.” Construction and Building Materials, Citations: 15.

  • “Durability performance of calcined clay concrete reinforced with recycled plastic fibres.” STEM HDR Research Proceedings, Citations: 10.

  • “The influence of calcination temperatures on the amorphous content in metakaolin.” Concrete Institute of Australia Conference Proceedings, Citations: 7.

Conclusion

In summary, Mr. Mayen Geu is an accomplished civil engineer, researcher, and educator whose contributions to sustainable construction materials and structural engineering are both academically significant and socially relevant. His expertise in the design and performance of advanced concrete composites addresses one of the most pressing challenges in modern engineering: creating infrastructure that is both durable and environmentally sustainable. He has demonstrated strong leadership in academia, guiding students while advancing independent and collaborative research. His publication record, scholarship awards, and community engagement reflect a career dedicated to research excellence and professional service. With his proven ability to integrate teaching, research, and practical engineering, Mr. Mayen Geu is exceptionally deserving of recognition through international academic awards, as his future work promises continued advancements in sustainable infrastructure and contributions to the global engineering community.

Parthasaarathi R | Civil Engineering | Best Researcher Award

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Mr. Parthasaarathi R | Civil Engineering | Best Researcher Award

Mr. Parthasaarathi R | Civil Engineering – Assistant Professor at Hindusthan College of Engineering and Technology Coimbatore, India

Er. R. Parthasaarathi is a dynamic structural engineering professional and academic researcher whose work bridges practical civil engineering challenges with cutting-edge sustainable innovations. With over a decade of combined industry and academic experience, he has consistently demonstrated excellence in structural analysis, material innovation, and sustainable concrete technology. Currently finalizing his Ph.D. in Structural Engineering, his scholarly output and practical engagements position him as a deserving candidate for the Best Researcher Award. His contributions are rooted in experimental investigations, analytical modeling, and a strong passion for eco-conscious structural systems.

Academic Profile

ORCID  |  Google Scholar  |  Scopus

Education

His educational path reflects a steady climb through the academic ranks of engineering excellence. He began with a Diploma in Civil Engineering from Muthayammal Polytechnic, followed by a Bachelor’s degree (B.E.) in Civil Engineering from Anna University Regional Center, Coimbatore. He then completed a Master’s degree (M.E.) in Structural Engineering from Mahendra Engineering College under Anna University with distinction. Currently, he has submitted his doctoral thesis in Structural Engineering at the Karpagam Academy of Higher Education, focusing on performance-optimized composite structures and sustainable reinforcement materials.

Experience

Er. Parthasaarathi’s experience spans over 10 years, including roles in industry, academia, and international training. He worked as a Site Engineer with Gee Pee Constructions, gaining first-hand knowledge of real-world structural execution. He then transitioned into academia, serving as an Assistant Professor at SVS College of Engineering and later at Hindusthan College of Engineering and Technology, Coimbatore. Additionally, he contributed globally as a Technical Trainer through ASTI Academy, UAE, specializing in civil engineering software and design standards. His practical, teaching, and mentorship roles demonstrate a holistic approach to engineering education and application.

Research Interest

His research revolves around sustainable construction materials, fiber-reinforced composites, structural retrofitting, and nanotechnology applications in concrete. He actively explores the use of natural fibers (coir, coconut shell, bamboo) and nano-enhanced materials (e.g., graphene oxide) as sustainable alternatives in concrete structures. His work addresses environmental concerns and promotes eco-friendly construction techniques that meet modern performance demands while reducing carbon footprints.

Awards and Recognitions

Though early in his formal research career, Er. Parthasaarathi has received notable academic attention. He has published in several SCI and Scopus-indexed journals, with multiple citations across civil and structural research databases. He has also presented his work at international conferences such as ERTSE at VIT Chennai and Selvam College of Technology, drawing appreciation for his novel material testing frameworks. His work contributes directly to the global agenda of green infrastructure and sustainable development goals.

Publications

  1. 🏗️ “An In-depth Assessment of the Structural Integrity and Advantages of Bamboo-Reinforced Cement Concrete Elements (BRCC)”, published in Revista Materia (2024, SCI-indexed) – This paper is gaining traction for its sustainable reinforcement proposal using bamboo alternatives.
  2. 🧱 “A Stiffness Analysis of Treated and Non-Treated Meshed Coir Layer Fibre Reinforced Cement Concrete”, AIP Conference Proceedings (2023, Scopus) – This study contributes to rural and low-cost housing applications.
  3. ⚙️ “Development of High-Performance Concrete by Using Nanomaterial Graphene Oxide in Partial Replacement for Cement”, AIP Conference Proceedings (2023, Scopus) – Highly cited for advancing concrete strength and durability using nanomaterials.
  4. 🔬 “Utilizing Recycled Nanomaterials as a Partial Replacement for Cement to Create High-Performance Concrete”, SCI-indexed journal (2023) – This paper has become a benchmark in waste-reuse research.
  5. 🥥 “Analyzing the Impact and Investigating Coconut Shell Fiber Reinforced Concrete (CSFRC) under Varied Loading Conditions”, ARASET Journal (2023, Scopus) – A promising approach to biodegradable reinforcement techniques.
  6. ♻️ “Study on Stiffness Characteristics of Concrete with Partial Replacement of Solid Waste”, IJNRD (2022) – Cited in discussions on circular construction strategies.
  7. 🔍 “An Experimental Study on Flexural Behavior of Concrete Beam by Partially Replaced Cement Using Waste Glass Powder”, IJRDT (2016) – One of his earliest works laying the groundwork for eco-concrete exploration.

Conclusion

Er. R. Parthasaarathi stands as a promising researcher at the intersection of material innovation and structural design. His ability to align engineering practices with sustainability goals makes his work highly relevant in today’s climate-conscious construction industry. His blend of academic excellence, experimental rigor, and industrial exposure enhances his credibility as a future leader in civil engineering research. Based on his impactful publications, dedicated service in teaching and training, and ongoing contributions to sustainable building solutions, he is undoubtedly a worthy nominee for the Best Researcher Award. His future trajectory holds potential for global collaboration, patent-driven innovation, and high-impact contributions to structural engineering.

zhangguang wang | civil engineering | Best Researcher Award

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Prof. Dr. zhangguang wang | civil engineering | Best Researcher Award

Prof. Dr. zhangguang wang | civil engineering- Dean at kaili university, China

Prof. Wang Zhanguang is a distinguished academic and researcher in the field of civil engineering, known for his expertise in wooden and composite structures. With a strong background in research, teaching, and project leadership, he has made significant contributions to the study of traditional ethnic structures, particularly those of the Miao and Dong communities. His work integrates traditional architectural techniques with modern engineering principles, aiming to preserve cultural heritage while improving structural resilience. As a professor and senior engineer, he plays a pivotal role in advancing civil engineering education and fostering innovative research in sustainable building materials and structural performance.

Profile:

Orcid

Education:

Prof. Wang obtained his doctorate from Southeast University, one of China’s leading institutions in engineering and technology. His academic journey has been marked by rigorous training in structural mechanics, material science, and sustainable construction practices. His doctoral research focused on the behavior of composite structures, laying the foundation for his future work in traditional ethnic wooden buildings. His strong academic credentials have enabled him to contribute significantly to both theoretical advancements and practical applications in civil engineering.

Experience:

With years of experience in both academia and industry, Prof. Wang has held key positions in several prestigious institutions. He serves as a faculty member at Jiangsu University of Science and Technology and Guizhou Minzu University, where he mentors master’s students and guides them in cutting-edge research. Additionally, he is recognized as an expert at the prefecture level in Qiandongnan Prefecture. His leadership extends to curriculum development, where he has played a crucial role in shaping the Civil Engineering program, which has been recognized as a first-class major in Guizhou Province. His expertise also extends to engineering project management, contributing to innovative construction methods and sustainable architectural solutions.

Research Interests:

Prof. Wang’s primary research interests lie in the structural performance of traditional wooden architecture, particularly the Miao and Dong ethnic wooden structures. His work aims to bridge the gap between traditional craftsmanship and modern engineering, ensuring the longevity and safety of these culturally significant buildings. He also explores composite structures and their applications in contemporary construction, focusing on enhancing durability and environmental sustainability. His research integrates advanced computational modeling, experimental studies, and fieldwork to develop innovative solutions that combine traditional building techniques with modern materials.

Awards:

Prof. Wang has been recognized for his outstanding contributions to research and education with numerous accolades. He has won the first and second prizes in the Guizhou Province Teaching Achievement Awards, reflecting his excellence in pedagogy and curriculum development. Additionally, he has been honored as a “Golden Teacher” in undergraduate institutions in Guizhou Province, highlighting his dedication to student mentorship and academic leadership. His contributions to high-quality courses at the provincial level further attest to his commitment to fostering excellence in civil engineering education.

Publications:

Prof. Wang has authored and co-authored over 60 research papers, including several indexed in prestigious journals such as SCI and EI. His research publications reflect his expertise in structural performance, sustainability, and ethnic architectural heritage. Below are seven of his key publications:

  • Structural Performance of Traditional Miao Wooden Buildings: A Computational Approach (2021) – Journal of Structural Engineering 📖, cited by 24 articles.
  • Composite Structures in Modern Engineering: Bridging Tradition and Innovation (2020) – Construction and Building Materials 🏗️, cited by 30 articles.
  • Preserving Ethnic Wooden Architecture: Experimental Studies on Dong Structures (2019) – Heritage Science 🏛️, cited by 18 articles.
  • Sustainability in Civil Engineering: A Case Study on Wooden Composite Systems (2018) – Journal of Sustainable Construction 🌱, cited by 22 articles.
  • Advancements in Earthquake-Resistant Design for Traditional Wooden Houses (2017) – Seismic Engineering Journal 🌍, cited by 16 articles.
  • Analyzing Load-Bearing Capacity of Ethnic Timber Frameworks (2016) – International Journal of Structural Analysis 📐, cited by 14 articles.
  • Innovations in Hybrid Structural Systems: A New Era in Sustainable Architecture (2015) – Engineering Materials Journal 🏠, cited by 19 articles.

Conclusion:

Prof. Wang Zhanguang stands as a highly accomplished researcher and educator whose work has significantly contributed to both academia and industry. His pioneering research on traditional ethnic wooden structures has not only helped preserve cultural heritage but also improved modern engineering practices. Through his extensive publications, leadership in national and provincial projects, and dedication to teaching, he has established himself as a leader in civil engineering. His ability to integrate traditional knowledge with contemporary structural solutions makes him a deserving candidate for the Best Researcher Award, recognizing his profound impact on the field of engineering and architectural preservation.