Nabaz yassen ezuldin
Research Interestsstructure
geopolymer
materials
design
analysis
| Gender | MALE |
|---|---|
| Place of Work | Technical Engineering College/ Kirkuk |
| Position | Lecturer |
| Qualification | Master |
| Speciality | Structure |
| nabaz.shexani@ntu.edu.iq | |
| Phone | 07702378753 |
| Address | Kirkuk, Kirkuk, Mosul, Iraq |
I am Nabaz, a PhD student in Structural Engineering, born in 1991 in Kirkuk, Iraq. I completed my BSc in Civil Engineering in 2013 and my MSc in Materials and Structural Engineering in 2016. Currently, I am continuing my PhD studies in Structural Engineering, focusing on advanced research in this field.
With a strong academic foundation, I have been contributing to the scientific community through my research and knowledge in structural engineering. My work aims to bridge the gap between theoretical understanding and practical applications in the construction and infrastructure sectors.
In addition to my academic pursuits, I have authored multiple scientific works and continue to innovate in my field. I am committed to addressing challenges in structural design, safety, and optimization, particularly in the context of modern engineering needs.
Skills
arabic (100%)
kurdish (100%)
english (80%)
turkish (70%)
autocad (90%)
MS (90%)
Academic Qualification
PH.D.studient
Sep 19, 2022 - Apr 1, 2025from 2022 till now
Working Experience
site enginner [site engineer]
May 10, 2016 - Jul 18, 2019site enginner
Publications
Factors affecting durability properties of GPC: A review
Apr 10, 2024Journal Research on Engineering Structures & Material
DOI : http://dx.doi.org/10.17515/resm2024.145ma0109rv
Issue 1
Volume 11
The imperative to find sustainable alternatives to conventional cement, given its energy-intensive production and significant environmental impact, has driven research into alternative binder materials for civil infrastructure. This paper explores Geopolymer concrete (GPC), a polymer-based binder technology, as a promising solution to reduce the environmental footprint associated with traditional cement production. The study meticulously examines various aspects of GPC, focusing on its impact on crucial durability properties for infrastructure applications. This includes an in-depth analysis of GPC properties, elucidating characteristics influencing performance. In addition to fundamental properties, the paper critically evaluates the resistance of geopolymer pastes and concrete to a spectrum of extreme conditions. The discussion spans testing methodologies for both heat- and ambient-cured geopolymers, providing insights into their performance and durability across diverse environmental challenges. This comprehensive review aims to enhance the understanding of GPC technology, offering valuable insights for researchers, engineers, and industry professionals committed to sustainable and resilient infrastructure solutions.
Conferences
The performance and mechanical properties of geopolymer concrete
Apr 24, 2024 - Apr 25, 2024Publisher AIP
DOI https://doi.org/10.1063/5.0236590
Country iraq
Location kufa,iraq