Basim H. Al-Humeidawi - Pavement Engineering - Best Researcher Award

University of Al-Qadisiyah - Iraq

AUTHOR PROFILE

SCOPUS

PHD IN CIVIL ENGINEERING

Basim H. Al-Humeidawi is a distinguished full professor with a PhD in Civil Engineering from the University of Manchester, UK, obtained in 2013. His academic journey has equipped him with a profound understanding of various engineering disciplines.

EXPERT IN PAVEMENT ENGINEERING

Specializing in Pavement Engineering, Basim has conducted extensive research in asphalt mixes and their modifications, exploring innovative solutions for pavement materials and road maintenance.

ASPHALT BINDER MODIFICATIONS

One of his notable research areas includes the qualitative evaluation of asphalt binder modified with SBS polymer, enhancing the performance and durability of pavement surfaces.

SUSTAINABLE PAVEMENT MATERIALS

Basim has also researched the efficient use of ceramic waste powder in cementitious grout, contributing to the development of sustainable semi-flexible pavement surfaces, demonstrating his commitment to eco-friendly engineering solutions.

HIGHWAYS AND TRAFFIC ENGINEERING

His expertise extends to highways design and traffic engineering, where he applies advanced principles to improve road safety and efficiency, addressing the complexities of modern transportation systems.

STRUCTURAL AND MATERIALS ENGINEERING

In the realm of Structural Engineering and Materials Engineering, Basim employs finite element analysis to innovate and optimize engineering designs, ensuring structural integrity and performance.

PROLIFIC RESEARCHER

Basim's contributions to the field are well-documented through his numerous publications, which can be explored on his Google Scholar profile. His research not only advances engineering knowledge but also provides practical solutions to real-world problems.

NOTABLE PUBLICATION

Influence of Sustainable Grout Material on the Moisture Damage of Semi-flexible Pavement
Authors: R. Al-Nawasir, B. Al-Humeidawi, A. Shubbar
Year: 2024
Journal: Periodica Polytechnica Civil Engineering, 68(3), pp. 961–973

Evaluation of the performance of semi-flexible pavement contained sustainable grout material.
Authors: H.K. Al-Zerejawy, B.H. Al-Humeidawi
Year: 2024
Conference: AIP Conference Proceedings, 3079(1), 060019

Assessing the Effect of Size and Content of Shredded Paper Fiber on the Properties of Asphalt Binder.
Authors: H.K. Al-Zerejawy, B.H. Al-Humeidawi
Year: 2024
Conference: AIP Conference Proceedings, 3009(1), 030060

Qualitative Evaluation for Asphalt Binder Modified with SBS Polymer.
Authors: R.I. Al-Nawasir, B.H. Al-Humeidawi
Year: 2023
Journal: Tikrit Journal of Engineering Sciences, 30(4), pp. 88–101

Investigating the Risk Factors on Crash Severity for Selected Risky Roads in Al-Diwaniyah City by Utilizing a Binary Probit Model.
Authors: M.G. Al-Zubaidi, H. Zubaidi, B.H. Al-Humeidawi
Year: 2023
Conference: E3S Web of Conferences, 427, 03037

A review into studies related to the effect of the pavement surface condition on traffic safety: A scientometric analysis.
Authors: M.G. Al-Zubaidi, H. Zubaidi, B.H. Al-Humeidawi
Year: 2023
Journal: Al-Qadisiyah Journal for Engineering Sciences, 16(3), pp. 169–179

Utilization of Plant Waste in the Production of Cementitious Grouts Used for Semi-Flexible Pavements.
Authors: H.K. Al-Zerejawy, B.H. Al-Humeidawi
Year: 2023
Conference: AIP Conference Proceedings, 2775(1), 030004

EARLY ACADEMIC PURSUITS

Luo Yong's academic journey showcases a strong foundation in geological engineering and resource exploration engineering, culminating in his current pursuit of a Ph.D. in Civil Engineering at Universiti Sains Malaysia. His research interests have evolved from studying geological processes to focusing on enhancing the durability of bamboo fiber reinforced concrete.

PROFESSIONAL ENDEAVORS

With extensive experience as a teacher at Fujian Forestry Vocational and Technical College, Luo Yong has led and participated in various research projects focused on bamboo fiber reinforced concrete and asphalt. His work involves applying natural fibers to enhance the mechanical properties and durability of concrete, particularly for applications in civil engineering infrastructure such as electrically heated bridge decks.

CONTRIBUTIONS AND RESEARCH FOCUS

Luo Yong's research focuses on leveraging the "100 billion bamboo industry" in Nanping to develop innovative solutions for civil engineering challenges. By applying bamboo fibers to concrete and asphalt, he aims to improve their mechanical properties, durability, and electrical conductivity. His work also involves finite element analysis to optimize the design of electrically heated bridge decks and simulate dynamic energy output for optimal performance.

IMPACT AND INFLUENCE

Through his research on bamboo fiber reinforced concrete and asphalt, Luo Yong seeks to address critical issues in civil engineering infrastructure, such as enhancing the durability of bridge decks and improving pavement performance. His findings have the potential to contribute to more sustainable and resilient infrastructure solutions, impacting the field of civil engineering positively.

ACADEMIC CITES

Luo Yong's research has been recognized and published in reputable journals, including MATERIALI IN TEHNOLOGIJE, Vegetos, and Construction and Building Materials. These publications highlight his contributions to advancing knowledge in the field of civil engineering, particularly in the application of natural fibers to enhance concrete and asphalt performance.

LEGACY AND FUTURE CONTRIBUTIONS

As Luo Yong continues his research in civil engineering, his work holds promise for shaping the future of infrastructure materials and design. By developing innovative solutions using bamboo fibers, he aims to contribute to the sustainability, durability, and performance of civil engineering infrastructure, leaving a lasting legacy in the field.