Fuat Aras | Structural Engineering | Research Excellence in Civil and Environmental Engineering Award

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Prof. Fuat Aras | Structural Engineering | Research Excellence in Civil and Environmental Engineering Award

Istanbul Medeniyet University | Turkey

Prof. Fuat Aras is a distinguished civil engineer whose academic and research trajectory demonstrates substantial contributions to structural dynamics, earthquake engineering, and the protection of historical and modern infrastructures. With extensive experience as Professor in the Civil Engineering Department at Istanbul Medeniyet University, he has built a strong research portfolio grounded in experimental and numerical analyses of reinforced concrete and masonry structures, dynamic characterization, structural health monitoring, and seismic retrofitting. His scholarly accomplishments include numerous SCI/SCIE-indexed journal publications, books, and international conference papers, reflecting a consistent commitment to advancing global knowledge in earthquake-resistant design and the preservation of cultural heritage structures. Prof. Aras has coordinated several national research projects funded by TUBITAK, focusing on innovative technologies for improving building performance, dynamic behavior evaluation, and damage assessment, while also contributing to major European Union–supported initiatives on seismic protection. He has supervised multiple graduate theses on structural monitoring, retrofitting strategies, and seismic performance, indicating strong mentorship and academic leadership. His long-standing collaborations with national and international institutions, including partnerships with researchers in Türkiye, Europe, and the United States, highlight his interdisciplinary and global impact. In addition to his research excellence, he has held key administrative roles such as department chair and vice dean, strengthening institutional development and academic governance. His body of work has supported safer community infrastructures by providing evidence-based insights into building behavior, seismic vulnerabilities, and preservation strategies, thereby contributing significantly to societal resilience. With extensive teaching experience in core structural engineering courses and expertise in advanced analytical tools, Prof. Aras continues to shape the next generation of engineers while expanding research frontiers in structural dynamics and earthquake engineering, positioning him as a highly influential figure with strong future potential for further impact in his field.

Profile: Google Scholar | ORCID
Publications

Aras, F., Krstevska, L., Altay, G., & Tashkov, L. (2011). Experimental and numerical modal analyses of a historical masonry palace. Construction and Building Materials, 25(1), 81–91.

Namli, M., & Aras, F. (2020). Investigation of effects of dynamic loads in metro tunnels during construction and operation on existing buildings. Arabian Journal of Geosciences, 13(11), 424.

Aras, F., & Altay, G. (2015). Investigation of mechanical properties of masonry in historic buildings. Građevinar, 67(5),

Aras, F., & Altay, G. (2015). Seismic evaluation and structural control of the historical Beylerbeyi Palace. Structural Control and Health Monitoring, 22(2), 347–364.

Aras, F., & Düzci, E. (2018). Seismic performance of traditional stone masonry dwellings under Çanakkale seismic sequences. Journal of Performance of Constructed Facilities, 32(4), 04018029.

Yang Yunpeng | Geotechnical Engineering | Research Excellence Award

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Assoc. Prof. Dr. Yang Yunpeng | Geotechnical Engineering | Research Excellence Award

Yangtze University | China

Assoc. Prof. Dr. Yang Yunpeng is a dedicated early-career scholar and Specially Appointed Associate Professor at the College of Geosciences, Yangtze University, recognized for his emerging contributions to the field of geological hazards and mountain disaster dynamics. His research primarily focuses on the mechanisms, evolution, and monitoring of landslides, debris flows, rock avalanches, and snow avalanches, with an emphasis on disaster-chain processes in seismically active regions. He has developed expertise in seismic-signal-based monitoring and early warning frameworks, experimental flume testing, debris-flow dynamics, and disaster-risk mitigation technologies. Dr. Yang has published over ten research articles, including nine SCI-indexed papers, with four as first or corresponding author in reputable international journals such as Engineering Geology, JGR: Earth Surface, and Landslides. His work has clarified the chain-inducing mechanisms of seismic landslide–debris-flow sequences, advanced the understanding of debris-flow impact dynamics, and contributed novel insights into sediment transport transitions under seismic forcing. In addition to publications, he has participated in the development of multiple national invention patents related to disaster simulation, debris-flow hazard mitigation, and engineering modeling technologies, demonstrating both scientific innovation and practical applicability. Dr. Yang collaborates actively with interdisciplinary teams involving experts in seismology, geomorphology, engineering geology, and geotechnical engineering, enabling integrative approaches to mountain-hazard research. His contributions support national needs in major engineering construction and disaster-risk reduction, with societal impacts spanning improved hazard early-warning capabilities, enhanced understanding of disaster chains, and the development of protective strategies for vulnerable mountainous regions. Through rigorous research, international engagement, and commitment to scientific advancement, Yang Yunpeng continues to establish himself as a promising researcher contributing valuable knowledge to global geohazard prevention and sustainable development.

Profile: Scopus
Publication

Physical model experiment of rainfall-induced instability of a two-layer slope: Implications for early warning. Landslides. (2024)

Caoyuan Niu | Geotechnical Engineering | Best Researcher Award

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Dr. Caoyuan Niu | Geotechnical Engineering | Best Researcher Award

Senior Engineer‌ | China Railway No.4 Engineering Group Co., Ltd | China

Dr. Caoyuan Niu is a dynamic researcher specializing in bridge and tunnel engineering, with a strong focus on the mechanical behavior and fracture characteristics of rock and composite materials under complex environmental and loading conditions. Currently serving as a postdoctoral fellow jointly supervised by China Railway No.4 Engineering Group Co., Ltd. and Hefei University of Technology, he obtained his Ph.D. in Civil Engineering from Sichuan University in 2021. His scholarly output demonstrates a robust contribution to the field, with six SCI-indexed publications as the first author in high-impact international journals such as Rock Mechanics and Rock Engineering, International Journal of Rock Mechanics and Mining Sciences, and Cold Regions Science and Technology. In addition to his academic publications, Dr. Niu holds ten authorized invention patents, reflecting a strong orientation toward practical innovation and technology transfer. His research on the bearing capacity of rock-anchored anchorage systems and the deterioration of rock materials under freeze-thaw and hydrochemical effects has advanced the understanding of infrastructure resilience and safety in extreme conditions. Through interdisciplinary collaboration with experts in material mechanics, structural engineering, and geotechnics, he has contributed to developing safer, more sustainable design principles for large-scale bridge and tunnel projects. Dr. Niu’s scientific endeavors not only enhance theoretical insights into rock fracture mechanics but also provide applied engineering solutions that support national infrastructure development and global knowledge exchange in civil and geotechnical engineering.

Profile: Scopus
Publications:

Influence of the interlaced holes on crack propagation behavior under impact loads. International Journal of Impact Engineering. 
(Cited by: 17)

Deterioration of dynamic fracture properties of granite under the coupled effects of hydrochemical solutions and freeze–thaw cycles. International Journal of Rock Mechanics and Mining Sciences. 
(Cited by: 8)

Poloju Kiran Kumar | Structural Engineering | Best Academic Researcher Award

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Dr. Poloju Kiran Kumar | Structural Engineering | Best Academic Researcher Award

Senior Lecturer | Middle East College | Oman

Dr. Poloju Kiran Kumar is a distinguished researcher and academician in civil and environmental engineering, presently serving as Senior Lecturer at Middle East College, Muscat, Oman, and Committee Member of the Institution of Civil Engineers (ICE), Oman region. With over thirteen years of academic and research experience, his expertise encompasses structural engineering, sustainable construction materials, and advanced geopolymer concrete technology. Dr. Kiran has authored more than 80 research papers in Web of Science and Scopus-indexed journals and contributed eight book chapters published by Springer, Taylor & Francis, and Nova Publishers. His research achievements include five patents in India and Oman focusing on innovative sustainable concrete materials and artificial intelligence applications in structural performance analysis. He has successfully completed four externally funded research projects worth 16,000 OMR from The Research Council of Oman and leads collaborative projects with Prince Sattam bin Abdulaziz University, Saudi Arabia. His scholarly influence is reflected through over 250 Google Scholar citations with an h-index of 12. Dr. Kiran’s academic leadership is evident in his role in program accreditation, quality assurance, and development of modern teaching pedagogies integrating digital tools. His commitment to sustainable construction and community engagement has earned multiple accolades, including four Best Academic Staff Awards, the INSO Young Scientist Award (2022), and recognition as ICE Oman’s Committee Member (2025). A Chartered Engineer and Fellow of the Higher Education Academy (UK), Dr. Kiran has delivered numerous keynote lectures and workshops across Oman, India, and beyond on geopolymer concrete, sustainable infrastructure, and pedagogical innovation. His research contributes significantly to the advancement of low-carbon construction technologies, enhancing environmental resilience and promoting sustainable development in alignment with global engineering goals.

Profile: Scopus | Google Scholar
Publications:

Poloju, R. K. M. K., & Anil, V. (2017). Properties of concrete as influenced by shape and texture of fine aggregate. American Journal of Applied Scientific Research, 3(3), 28–36.
(Cited by: 22)

Poloju, K. K., & Srinivasu, K. (2021). Impact of GGBS and strength ratio on mechanical properties of geopolymer concrete under ambient curing and oven curing. Materials Today: Proceedings, 42, 962–968. 
(Cited by: 60)

Rollakanti, C. R., Prasad, C. V. S. R., Poloju, K. K., Al Muharbi, N. M. J., & Arun, Y. V. (2021). An experimental investigation on mechanical properties of concrete by partial replacement of cement with wood ash and fine sea shell powder. Materials Today: Proceedings, 43, 1325–1330. 
(Cited by: 56)

Poloju, V. R. K. K., & Naidu, [First initial unavailable]. (2022). New method of data collection using the Kobo Toolbox. Journal of Positive School Psychology, 1527–1535.
(Cited by: 39)

Al Abri, S. A. S., Rollakanti, C. R., Poloju, K. K., & Joe, A. (2022). Experimental study on mechanical properties of concrete by partial replacement of cement with eggshell powder for sustainable construction. Materials Today: Proceedings, 65, 1660–1665. 
(Cited by: 25)

Hongzhi He | Geotechnical Engineering | Best Researcher Award

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Mr. Hongzhi He | Geotechnical Engineering | Best Researcher Award

Associate Professor | Sichuan University of Arts and Sciences | China

Mr. Hongzhi He is a distinguished researcher at Southwest Jiaotong University, Chengdu, China, specializing in pavement engineering, material characterization, and infrastructure durability assessment. His scholarly work primarily focuses on understanding interfacial behavior, bonding strength, and morphological characteristics in advanced asphalt and concrete systems, contributing significantly to the development of sustainable construction materials. With a growing academic footprint, Dr. He has authored 12 peer-reviewed publications and has been cited 84 times across 72 scholarly documents, demonstrating the increasing recognition and relevance of his research within the global civil and transportation engineering communities. Holding an h-index of 5, his research outputs exhibit consistent academic impact and are frequently referenced in studies related to construction materials and layered pavement systems. Dr. He has engaged in collaborations with 22 co-authors from leading research institutions, fostering interdisciplinary advancements in the field of civil infrastructure resilience and materials innovation. His recent publication, “Characterization of interface morphology and its impact on interlayer bonding strength in double-layered asphalt systems” (Construction and Building Materials, 2024), exemplifies his methodological rigor and contribution to improving the performance and longevity of transportation infrastructure. Through his dedication to scientific inquiry, Dr. He continues to advance the understanding of material interfacial mechanics and their implications for infrastructure sustainability. His research outcomes not only enrich the academic discourse but also provide practical insights that inform industry standards and public policy toward more durable, eco-efficient, and cost-effective construction solutions, thereby generating a meaningful societal impact at both national and international levels.

Profile: Scopus
Featured Publications:
  • Characterization of interface morphology and its impact on interlayer bonding strength in double-layered asphalt systems. Construction and Building Materials.

Xiao Jiayu | Structural Engineering | Best Researcher Award

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Xiao Jiayu | Structural Engineering | Best Researcher Award

Central South University of Forestry and Technology | China

Xiao Jiayu is an emerging researcher from Central South University of Forestry and Technology, specializing in the interdisciplinary fields of landscape architecture and civil and hydraulic engineering. She earned her Bachelor’s degree in Landscape Architecture in 2024, ranking within the top 30% of her cohort, and is currently pursuing a Master’s degree in Civil and Hydraulic Engineering at the same institution, continuing her academic excellence with a strong research orientation. Her academic foundation integrates aesthetic, ecological, and structural design principles, reflected through outstanding performance in subjects such as landscape engineering, environmental psychology, urban green space planning, and advanced concrete and steel structure theories. Demonstrating exceptional analytical and technical abilities, she has developed a keen interest in sustainable design, structural safety, and green infrastructure systems that contribute to environmental resilience and urban livability. Her current research direction focuses on the integration of engineering precision with ecological sensitivity, aiming to advance innovative solutions for sustainable urban development and landscape restoration. Xiao Jiayu’s strong command of design software, numerical analysis, and experimental techniques enables her to bridge creative design with scientific rigor effectively. Throughout her academic journey, she has exhibited strong teamwork and leadership skills through university projects, collaborative design workshops, and interdisciplinary studies. Her academic pursuits reflect a deep commitment to fostering harmony between built environments and natural ecosystems, highlighting her potential to make significant contributions to sustainable construction and landscape innovation. With a growing academic profile and dedication to continuous learning, she represents the new generation of scholars poised to shape the future of civil engineering and environmental design through research-driven, socially responsible, and technologically informed approaches.

Profile: ORCID
Featured Publications:

Yuan, J., Xiao, J., & Huang, D. (2025, December). Experimental research on bond behavior of high-strength reinforcement in unconfined fly ash-based geopolymer concrete. Case Studies in Construction Materials.

Mahasakti Mahamaya | Geotechnical Engineering | Women Researcher Award

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Dr. Mahasakti Mahamaya | Geotechnical Engineering | Women Researcher Award

Associate Professor | OP Jindal University | India

Dr. Mahasakti Mahamaya is a distinguished researcher whose academic contributions span across engineering and interdisciplinary sciences, with a focus on innovative methodologies, sustainable development, and applied technologies. Her research portfolio demonstrates significant depth, addressing complex real-world challenges through analytical precision and forward-looking inquiry. Dr. Mahamaya has authored a substantial number of peer-reviewed papers in reputed international journals and conferences, contributing extensively to the advancement of knowledge in her field. Her work has attracted a remarkable level of global attention, reflected through 483 total citations and 445 citations since 2020, underscoring the continuing influence of her research. With an h-index of 10 and an i10-index of 10, Dr. Mahamaya has consistently maintained scholarly excellence and research impact across multiple domains. She has actively collaborated with experts and institutions worldwide, strengthening multidisciplinary networks and fostering the integration of academic research with industry and policy frameworks. Her studies have advanced understanding in areas such as material behavior, computational modeling, and sustainable engineering practices, while also highlighting the societal and environmental implications of technological innovation. Through mentorship, publication, and collaborative initiatives, Dr. Mahamaya has contributed to nurturing a new generation of researchers and to shaping future-oriented strategies in engineering and applied science. Her sustained academic engagement and global recognition underscore a career dedicated to impactful, ethically grounded, and socially relevant scientific inquiry, positioning her as a leading figure in her research domain.

Profile: Scopus | ORCID | Google Scholar
Featured Publications:

Suman, S., Mahamaya, M., & Das, S. K. (2016). Prediction of maximum dry density and unconfined compressive strength of cement stabilised soil using artificial intelligence techniques. International Journal of Geosynthetics and Ground Engineering, 2(2), 1–11.

Mahamaya, M., Das, S. K., Reddy, K. R., & Jain, S. (2021). Interaction of biopolymer with dispersive geomaterial and its characterization: An eco-friendly approach for erosion control. Journal of Cleaner Production, 127778.

Parhi, P. S., Garanayak, L., Mahamaya, M., & Das, S. K. (2017). Stabilization of an expansive soil using alkali activated fly ash based geopolymer. International Congress and Exhibition "Sustainable Civil Infrastructures".

Mahamaya, M., & Das, S. K. (2017). Characterization of mine overburden and fly ash as a stabilized pavement material. Particulate Science and Technology, 35(6), 660–666.

Das, S. K., Mahamaya, M., & Reddy, K. R. (2020). Coal mine overburden soft shale as a controlled low strength material. International Journal of Mining, Reclamation and Environment, 34(10), 725–747.

Changxin Huang | Geotechnical Engineering | Best Researcher Award

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Dr. Changxin Huang | Geotechnical Engineering | Best Researcher Award

Doctoral student | Shandong University | China

The research fields of Dr. Changxin Huang encompass advanced studies in sustainable and intelligent civil engineering materials, focusing primarily on multifunctional and smart concretes through the integration of nanotechnology. The research explores the development of high-performance cementitious composites with self-sensing, self-healing, and durability-enhancing capabilities to address challenges in modern infrastructure systems. Emphasis is placed on the design and optimization of nano-engineered materials such as carbon-based nanomaterials, graphene, and carbon nanotubes to improve mechanical strength, electrical conductivity, and structural monitoring efficiency. Huang’s work also extends to the application of intelligent monitoring systems for civil infrastructure, utilizing embedded sensors and data-driven technologies to enable real-time structural health monitoring and predictive maintenance. Additional areas of interest include green and sustainable construction materials, energy-efficient concrete structures, and recycling of industrial by-products for eco-friendly material synthesis. The research integrates experimental testing, numerical modeling, and machine learning approaches to predict material performance and optimize formulation strategies. Huang’s contributions aim to bridge material science and structural engineering, promoting the transition toward intelligent, resilient, and low-carbon construction systems. The interdisciplinary approach combines principles from materials engineering, nanotechnology, and data analytics to enhance infrastructure performance and sustainability. Overall, the research advances the vision of next-generation civil infrastructure that is adaptive, energy-efficient, and environmentally responsible through innovative multifunctional concrete technologies and smart monitoring systems.

Profile: Scopus | ORCID
Featured Publications:

A stepwise calculation method for grouting penetration in rough rock fracture based on fracture segment division. (2025). Tunnelling and Underground Space Technology.

Zahid Ur Rehman | Geotechnical Engineering | Best Researcher Award

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Dr. Zahid Ur Rehman | Geotechnical Engineering | Best Researcher Award

Dr. Zahid Ur Rehman is a distinguished researcher and academic in the field of Mining Engineering, specializing in rock mechanics, tunnel design, and numerical modeling for geotechnical analysis. His scholarly contributions emphasize the study of rock mass behavior under varied loading conditions, focusing on the stability and safety of underground structures in complex geological environments. Through extensive research on the Lowari Tunnel and Kohat Tunnel projects in Pakistan, Zahid Ur Rehman has developed advanced modeling techniques using FEM and DEM approaches to predict deformation, stress distribution, and support system performance. His work integrates theoretical and empirical methods to optimize tunnel support systems, enhance slope stability, and mitigate risks associated with rock bursts and collapses. Beyond tunnel engineering, his studies extend to dimension stone mining, ore reserve estimation, explosive engineering, and sustainable mineral extraction. His collaborative publications explore artificial intelligence applications for rock mass characterization, risk assessment in mining operations, and the environmental management of mineral industries. Zahid Ur Rehman has supervised multiple undergraduate projects investigating geotechnical variability, squeezing potential, and predictive modeling in tunnel environments, demonstrating a commitment to fostering research innovation. His proficiency with tools such as RocLab, RS2, and Matlab strengthens his expertise in simulation and modeling for ground support design. Additionally, his involvement with the Society of Mining Engineers and Pakistan Engineering Council highlights active engagement in professional development and academic leadership. His academic output, including journal articles and a co-authored book chapter on slope engineering, contributes significantly to advancing mining and geotechnical sciences. Zahid Ur Rehman has 92 citations across 11 research documents with an h-index of 6, reflecting substantial influence and research impact in the mining engineering discipline.

Profile: Scopus | ORCID
Featured Publications

Jan, M. S., Hussain, S., Zahra, R. E., Emad, M. Z., Khan, N. M., Rehman, Z. U., Cao, K., Alarifi, S. S., Raza, S., Sherin, S., et al. (2023). Appraisal of different artificial intelligence techniques for the prediction of marble strength. Sustainability.

Hussain, S., Khan, N. M., Emad, M. Z., Naji, A. M., Cao, K., Gao, Q., Rehman, Z. U., Raza, S., Cui, R., Salman, M., et al. (2022). An appropriate model for the prediction of rock mass deformation modulus among various artificial intelligence models. Sustainability.

Gul, A., Shahzada, K., Alam, B., Badrashi, Y. I., Khan, S. W., Khan, F. A., Ali, A., & Rehman, Z. U. (2020). Experimental study on the structural behavior of cast in-situ hollow core concrete slabs. Civil Engineering Journal (Iran).

Hussian, S., Mohammad, N., Rehman, Z. U., Khan, N. M., Shahzada, K., Ali, S., Tahir, M., Raza, S., & Sherin, S. (2020). Review of the geological strength index (GSI) as an empirical classification and rock mass property estimation tool: Origination, modifications, applications, and limitations. Advances in Civil Engineering.

Tahir, M., Rehman, Z. U., Husain, S., Muhammad, N., Nazir, M., Sadiq, M., & Hussain, I. (2020). Up-gradation of black shale of Chimiari region of Pakistan by flotation scheme. Journal of Himalayan Earth Sciences.

Yiyi Yang | Geotechnical Engineering | Best Scholar Award

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Ms. Yiyi Yang | Geotechnical Engineering | Best Scholar Award

Northwestern University | China

Ms. Yiyi Yang is a dedicated researcher in geological engineering with a strong academic foundation and growing expertise in soil mechanics and geotechnical applications. Currently pursuing a master’s degree in Geological Engineering at Northwest University, Xi’an, following a successful completion of a bachelor’s degree in the same field at Xi’an University of Science and Technology, the academic journey reflects both excellence and commitment. Consistently recognized with multiple scholarships and awards, including the First-Class Scholarship at Northwest University, the performance ranking at the top of the class underscores outstanding ability and determination. Research contributions demonstrate an interest in soil-water interactions, particularly in the deformation of compacted loess under wetting and infiltration processes. Work on compaction conditions, microstructural evolution, and hydraulic conductivity showcases both analytical skills and experimental rigor. As part of a collaborative project under the supervision of Ping Li, significant insights were gained into loess behavior, which are highly relevant to civil engineering and geotechnical practices. The publication “From agricultural waste to geotechnical application: Multiscale mechanisms of apple tree biochar for loess reinforcement” in Powder Technology highlights the capacity to connect environmental sustainability with engineering innovation by exploring biochar as a reinforcement material. Beyond academics, contributions as a volunteer and recognition with a two-star volunteer award reflect a well-rounded individual balancing research, academic achievement, and community engagement. Technical skills span experimental methods, data collection, and advanced use of specialized software including AutoCAD, CorelDraw, Origin, and Python, reinforcing readiness for complex research and engineering tasks. Proficiency in English, demonstrated by CET-6, further supports the ability to engage with international research. Altogether, the profile demonstrates exceptional potential for advancing knowledge in geological engineering, particularly in sustainable geotechnical solutions that bridge environmental considerations with practical applications in soil stabilization and infrastructure development.

Profile: Scopus
Featured Publication:

From agricultural waste to geotechnical application: Investigation of apple tree biochar for loess reinforcement. (2025). Powder Technology.