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 🏗️♻️

Guang Yang | Chemical Admixtures Awards | Best Researcher Award

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Mr Guang YANG | Chemical Admixtures Awards | Best Researcher Award

Mr Guang Yang, Institute of Disaster Prevention, China

Guang YANG is a first-year postgraduate student in the School of Civil Engineering at the Institute of Disaster Prevention. His primary research focuses on chemical admixtures and high-performance cementitious materials. Guang’s academic interests are driven by the need for more sustainable and efficient construction materials, especially concerning recycled water and waste slurry in concrete production. Despite being early in his graduate studies, Guang has already contributed to an impactful study, published in the journal Applied Sciences. His collaboration with leading researchers, such as Prof. Yanfeng Zuo, and partnerships with industrial players like a mixing plant in Beijing, highlight his commitment to bridging academic research with real-world applications. Guang’s passion lies in advancing eco-friendly concrete technologies, and his work is expected to play a key role in promoting sustainability in construction practices.

Profile

Orcid

Strengths for the Award

  1. Significant Research Contribution: Guang YANG has demonstrated an early commitment to advancing knowledge in the field of civil engineering, particularly in the areas of chemical admixtures and high-performance cementitious materials. His research on the effect of super retarders on recycled water and concrete properties in mixing plants is a notable contribution to sustainable construction practices. This project could have a significant impact on improving the efficiency and environmental sustainability of concrete production.
  2. High-Quality Publications: His recent journal article published in Applied Sciences (DOI: 10.3390/app142210392) reflects his capability to produce high-quality research. Collaborating with prominent researchers like Prof. Yanfeng Zuo and experts in the field adds credibility and depth to his work, showing his ability to contribute meaningfully to important, ongoing research.
  3. Collaborative Research: Guang has engaged in meaningful collaborations with academia and industry, particularly with Prof. Yanfeng Zuo’s group and a mixing plant in Beijing. Such collaborations are vital for bridging the gap between theoretical research and practical applications, making his work highly relevant and potentially impactful for the industry.
  4. Early Career Progress: As a first-year postgraduate student, Guang’s work already showcases a high level of technical expertise and innovation. His research focus on recycled water use and super retarders demonstrates a forward-thinking approach to the growing need for sustainable solutions in the construction industry.

Areas for Improvement

  1. Expansion of Publications: While Guang has made an impressive start with one journal article published in a peer-reviewed journal, further publications, especially in higher-impact journals and conference proceedings, would strengthen his academic profile. Publishing additional papers would also help to establish a broader reputation in his research niche.
  2. Industry Engagement: Although Guang has collaborated with a mixing plant, further engagement with industry partners—such as through consultancy or applied research projects—could strengthen the practical application of his research findings. Developing industry partnerships will also enhance the translational value of his work.
  3. Professional Memberships: Guang has yet to become a member of any professional organizations or research networks. Engaging with professional bodies in civil engineering and disaster prevention could provide opportunities for networking, collaboration, and recognition in his field. Active participation in these communities would also broaden his visibility as an emerging researcher.

Education

Guang YANG is currently pursuing his Master’s degree in Civil Engineering at the Institute of Disaster Prevention, Beijing, China. He is specializing in high-performance concrete and chemical admixtures, a growing area within civil engineering. Guang holds a Bachelor’s degree in Civil Engineering from a reputable university, where he developed a strong foundation in structural materials, concrete technology, and sustainable engineering practices. During his undergraduate studies, he focused on the application of advanced cementitious materials in construction, which laid the groundwork for his current research. Guang’s academic journey is marked by a keen interest in applying innovative admixtures to improve concrete performance and sustainability. He has been mentored by prominent researchers like Prof. Yanfeng Zuo in his early graduate research. Guang continues to expand his academic credentials through rigorous coursework and research projects, positioning himself as an emerging scholar in civil engineering and disaster prevention.

Experience

Guang YANG is currently employed as a graduate researcher at the Institute of Disaster Prevention (Beijing, China), where he started in September 2024. In this role, Guang is involved in research focused on admixtures and high-performance concrete, working closely with both academic mentors and industry professionals. Prior to this, he gained significant experience as an undergraduate research assistant, conducting studies on sustainable building materials and concrete optimization. Guang’s most notable project thus far involves investigating the impact of super retarders on recycled water and waste slurry used in mixing plants, aimed at improving concrete’s environmental footprint. This work was recently published in Applied Sciences. Guang also has experience collaborating with Prof. Yanfeng Zuo’s research group and working with a mixing plant in Beijing to investigate recycled water applications in concrete production. His growing body of research reflects his commitment to advancing sustainable construction practices and disaster resilience.

Research Focus

Guang YANG’s research focuses on chemical admixtures and high-performance cementitious materials, with a specific emphasis on recycled water and waste slurry used in concrete production. His primary interest lies in improving the sustainability and performance of concrete by using environmentally friendly admixtures to enhance its properties, such as durability, workability, and strength. In his current project, Guang investigates the role of super retarders in recycled water concrete, aiming to improve its properties in mixing plants and minimize the environmental impact of concrete production. His work also explores the utilization of waste slurry from concrete manufacturing as a resource for producing more sustainable materials. Guang’s research aims to contribute to eco-efficient concrete technologies that address both environmental concerns and performance demands in construction. He collaborates extensively with industry partners, such as a mixing plant in Beijing, to test the applicability of his findings in real-world settings.

Publication Top Note

  • Effect of Super Retarder on Recycled Water and Concrete Properties of Waste Slurry in Mixing Plant 📜🧱
    Published in Applied Sciences on November 12, 2024. DOI: 10.3390/app142210392
    (Co-authors: Jinyue Wang, Yanfeng Zuo, Lixiong Gao, Siqin Liu)

Conclusion

Guang YANG is an emerging researcher with significant potential in the field of civil engineering, specifically in admixtures and high-performance concrete. His recent work, particularly in the area of sustainable concrete production and recycled water use, demonstrates both innovation and practicality. Though early in his career, Guang has already shown promise through strong academic collaborations and a publication in a peer-reviewed journal. With continued focus on expanding his research output, industry engagement, and professional development, he is well on his way to making even more substantial contributions to his field.Based on these strengths and early accomplishments, Guang YANG is a strong candidate for the Best Researcher Award, and his future contributions to the field of disaster prevention and civil engineering are highly anticipated.