Nadhim Hamah Sor | Construction Materials | Best Researcher Award

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Dr. Nadhim Hamah Sor | Construction Materials | Best Researcher Award

Lecturer, University of Garmian, Iraq

Nadhim Abdulwahid Hamah Sor is a Lecturer at the University of Garmian, specializing in Civil Engineering. He holds a Ph.D., MSc., and BSc. in Civil Engineering, with a focus on sustainable construction materials and advanced concrete technology. His career is marked by a deep commitment to improving the environmental impact of the construction industry through innovative materials, particularly geopolymer and self-compacting concrete. He has published extensively in top-tier journals and contributed to numerous research projects. With over 1,800 citations, an H-index of 22, and a significant international research collaboration network, Dr. Sor’s work has had a profound impact on the field. He is also actively engaged in consulting and applying his findings in practical industry projects. His expertise is highly recognized in the academic community, and he continues to be a driving force in the development of eco-efficient and sustainable materials for construction.

Education 

Dr. Nadhim Abdulwahid Hamah Sor completed his Bachelor of Science (BSc.) in Civil Engineering, followed by a Master of Science (MSc.) in the same field. He later obtained his Ph.D. in Civil Engineering, specializing in sustainable construction materials. His academic journey provided a strong foundation in advanced civil engineering topics, particularly focusing on concrete materials and their environmental impact. His educational background is complemented by a robust research career that includes numerous publications in highly respected journals such as Sustainability, Cleaner Materials, and European Journal of Environmental and Civil Engineering. His studies and research have been pivotal in pushing forward the concept of green and sustainable construction practices, with a particular focus on geopolymer concrete, self-compacting concrete, and recycling waste materials. Dr. Sor’s academic excellence and his ongoing pursuit of knowledge continue to shape his contributions to the field of civil engineering.

Experience 

Dr. Nadhim Abdulwahid Hamah Sor has extensive teaching and research experience in the field of Civil Engineering. As a Lecturer at the University of Garmian, he is involved in both undergraduate and postgraduate instruction, specializing in construction materials, concrete technology, and sustainable building practices. Over the years, he has supervised numerous research projects, guiding students and fellow researchers through complex investigations in sustainable construction. His professional journey includes leading various research projects, including those funded by prestigious research bodies like the Harran University Scientific Research Projects Coordination Unit (HÜBAP). Dr. Sor’s work spans academia and industry, as he has been involved in consultancy projects aimed at improving construction practices with eco-friendly materials. His contributions to industry collaborations have made significant strides in promoting the adoption of geopolymer and self-compacting concrete, both of which have substantial environmental benefits. He remains a committed mentor, guiding the next generation of civil engineers.

Research Focus 

Dr. Nadhim Abdulwahid Hamah Sor’s research focuses primarily on sustainable construction materials, with particular attention to advanced concrete technologies. His work includes the development and application of geopolymer concrete, self-compacting concrete, and eco-efficient materials designed to reduce the environmental footprint of construction projects. His research investigates the use of waste products, such as fly ash, plastic waste, and corn cob ash, in concrete formulations to enhance their performance while reducing reliance on traditional cement. He has also explored the use of nano-materials to modify the properties of concrete, improving durability, strength, and sustainability. Dr. Sor is particularly interested in recycling materials within construction and their potential to replace conventional aggregates and binders. His research aims to develop practical, cost-effective solutions that can be adopted in the real world, promoting a circular economy in the construction industry while reducing energy consumption and carbon emissions.

Publication Top Notes

  1. Compressive strength of sustainable geopolymer concrete composites: a state-of-the-art review 🌍🔬
  2. Geopolymer concrete as a cleaner construction material: An overview on materials and structural performances ♻️🏗️
  3. Innovative modeling techniques including MEP, ANN, and FQ to forecast the compressive strength of geopolymer concrete modified with nanoparticles 🤖🔧
  4. Rubberized geopolymer composites: A comprehensive review 🏠♻️
  5. Compressive strength of geopolymer concrete composites: a systematic comprehensive review, analysis, and modeling 💪🧱
  6. Performance of Self-Compacting mortars modified with Nanoparticles: A systematic review and modeling 🔍🧪
  7. The impact of nano clay on normal and high-performance concrete characteristics: a review 🧫🏗️
  8. Synergic effect of metakaolin and groundnut shell ash on the behavior of fly ash-based self-compacting geopolymer concrete 🌿🌍
  9. Thermal conductivity and hardened behavior of eco-friendly concrete incorporating waste polypropylene as fine aggregate ♻️🔥
  10. Development of eco-efficient lightweight self-compacting concrete with high volume of recycled EPS waste materials 🏗️♻️

Wubin Wang | Transportation Geotechnics Award | Best Researcher Award

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Mr. Wubin Wang | Transportation Geotechnics Award | Best Researcher Award

Civil Engineering Lab Technician, Southwest Jiaotong University, China

Wubin Wang is a dedicated civil engineering lab technician at Southwest Jiaotong University. His primary focus is on the research and development of new maglev subgrade structures, subgrade dynamics, and intelligent transportation systems. With a robust portfolio of leading or participating in 10 research projects, Wang has made significant contributions to his field, evident in his numerous publications in esteemed journals such as Transportation Geotechnics and Railway Engineering Science.

Profile

Scopus

Education 🎓

Wubin Wang has built a strong educational foundation in civil engineering, equipping him with the skills and knowledge necessary to excel in his research endeavors. His academic journey has been marked by continuous learning and development, preparing him to tackle complex engineering challenges.

Experience 🛠️

With extensive experience as a civil engineering lab technician, Wubin Wang has played a crucial role in various research projects. His expertise in subgrade dynamics and intelligent transportation systems has led to innovative advancements in maglev subgrade structures. Wang’s practical experience is complemented by his active participation in collaborative projects with industry leaders such as the China Railway Construction Corporation Limited.

Research Interests 🔍

Wubin Wang’s research interests lie at the intersection of civil engineering and transportation technology. He is particularly focused on the development of new maglev subgrade structures, understanding subgrade dynamics, and advancing intelligent transportation systems. His work aims to improve the efficiency, safety, and cost-effectiveness of transportation infrastructure.

Awards and Recognitions 🏆

Wubin Wang’s contributions to civil engineering have been acknowledged through various accolades and nominations. His innovative research on MLS maglev subgrades, which offers a cost-effective alternative to traditional methods, has earned him a nomination for the prestigious Popular Engineer Awards.

Publications  📚

  1. Experimental Study on the Dynamic Behavior of a New Medium–Low-Speed Maglev Subgrade Structure (2024) – Available at SSRN 4737335, Corresponding author Link
    • Cited by: Various research articles focusing on maglev subgrade dynamics.
  2. A Novel Method for Full-Section Assessment of High-Speed Railway Subgrade Compaction Quality Based on ML-Interval Prediction Theory (2024) – Sensors, 24(11), 3661, Corresponding author Link
    • Cited by: Studies on railway subgrade assessment and ML applications in civil engineering.
  3. Physical Modeling of Long-Term Dynamic Characteristics of the Subgrade for Medium–Low-Speed Maglevs (2023) – Railway Engineering Science, 31(3), 293-308, Corresponding author Link
    • Cited by: Research on dynamic characteristics of subgrade structures.
  4. Numerical Analysis of Subgrade Behavior under a Dynamic Maglev Train Load (2022) – Advances in Civil Engineering, 2022(1), 2014376 Link
    • Cited by: Papers on dynamic load effects in civil engineering.
  5. In Situ Experimental Study of Natural Diatomaceous Earth Slopes under Alternating Dry and Wet Conditions (2022) – Water, 14(5), 831 Link
    • Cited by: Articles focusing on soil behavior and environmental conditions.
  6. Analysis of Behaviors of the Railway Subgrade with a New Waterproof Seal Layer (2022) – Materials, 15(3), 1180 Link
    • Cited by: Research on waterproofing in civil engineering materials