Maryam Ishaq | Construction Materials | Excellence in Research Award

Published on by Academic Awards

Mrs. Maryam Ishaq | Construction Materials | Excellence in Research Award

University of Sulaimani | Iraq

Mrs. Maryam Ishaq is an emerging researcher in geotechnical engineering, cement chemistry, and sustainable construction materials, with a strong focus on integrating waste glass powder into concrete to enhance durability and environmental performance. Her publications explore chemical characterization, ASR mitigation, mechanical behavior, particle size effects, multivariate chemical analysis, and predictive strength modeling in glass-modified concrete. She has contributed to reputable journals such as Sustainable Chemistry and Pharmacy, Reviews on Advanced Materials Science, Journal of Sustainable Metallurgy, and Structural Concrete, establishing a promising citation record in a short period. Her work advances the development of greener, high-performance concrete materials through innovative material behavior studies and chemical optimization strategies. Alongside her research, she has gained hands-on engineering experience in road construction projects, contributing to quality assurance, structural performance evaluation, and field-based technical decision-making, further strengthening her applied engineering expertise.

Profile: Google Scholar

Featured Publications

  1. Ishaq, M. B., Mohammed, A. S., & Mohammed, A. A. (2025). Chemical characterization and performance optimization of waste glass-modified concrete for sustainable construction. Sustainable Chemistry and Pharmacy, 44, 101968.

  2. Ishaq, M. B., Mohammed, A. S., & Mohammed, A. A. (2025). The role of waste glass powder in alkali-silica reaction mitigation: Transforming glasscrete durability through chemical composition dynamics. Sustainable Chemistry and Pharmacy, 45, 102019.

  3. Ishaq, M. B., Mohammed, A. S., & Mohammed, A. A. (2025). Novel exploration of chemical compounds in mono-variate, bi-variate, and multi-variate scenarios of waste glass powder as a cement replacement in concrete. Sustainable Chemistry and Pharmacy, 43, 101894.

  4. Ishaq, M. B., & Mohammed, A. S. (2025). Optimizing compressive strength prediction in glass powder-modified concrete: A comprehensive study on silicon dioxide and calcium oxide influence across varied samples. Reviews on Advanced Materials Science, 64(1), 20250095.

  5. Ishaq, M. B., & Karim, F. R. (2024). Effect of thickness of reinforced concrete jacketing on solid reinforced concrete beam’s flexural strength: A critical review. Construction, 4(2), 94–102.

Nawab Sameer zada | Sustainable Construction | Best Researcher Award

Published on by Academic Awards

Mr. Nawab Sameer zada | Sustainable Construction | Best Researcher Award

Mr. Nawab Sameer zada, universiti teknologi petronas, Pakistan

Mr. Nawab Sameerzada holds a BS in Civil Engineering (PEC registered) from Sir Syed University, Karachi, with a perfect 4.0 GPA. His key coursework includes steel structure, applied thermodynamics, hydrology, and structural design. With 14 months of work experience as a Trainee Engineer at STEVTA, he handled documentation, cost estimates, quality control, and project management. His final year project (FYP) focused on designing and cost comparing high-rise tubular and moment-resisting frames, revealing cost-efficient results with post-tensioned slabs. He is proficient in AutoCAD, ETABS, SAFE, and holds an IOSH Managing Safely certificate. πŸ—οΈπŸ’»πŸ“Š

 

Publication Profile

Scopus

Educational Background

Mr. Nawab Sameerzada completed his Bachelor of Science in Civil Engineering at Sir Syed University of Engineering and Technology, Karachi, from 2017 to 2021. He achieved a remarkable 4.0 GPA, excelling in courses like engineering drawing, steel structures, hydrology, applied thermodynamics, and structural design. Before that, he completed his Intermediate in Pre-Engineering with 74% from the Board of Intermediate Education Karachi and his Matriculation in Science with an impressive 85% from the Board of Secondary Education Karachi. His academic journey reflects a strong foundation in civil engineering principles. πŸ“šπŸ–‹οΈπŸ‘·β€β™‚οΈ

 

Work Experience

Mr. Nawab Sameerzada has 14 months of professional experience in the field of civil engineering. He worked as a Trainee Engineer at the Sindh Technical Educational and Vocational Training Association (STEVTA), Karachi, where he was responsible for completing documentation, preparing tenders, and generating bills. He also analyzed construction plans and financial projections, ensuring accuracy and on-site implementation. Additionally, he prepared cost estimates, managed project resources, and maintained quality control and safety standards. He also spent one year teaching at Crescent Public School, contributing to both his technical and educational expertise. πŸ“‘πŸ—οΈπŸ“Š

 

Certifications

Mr. Nawab Sameerzada holds the IOSH Managing Safely (HSE) certification, which highlights his proficiency in health, safety, and environmental management. This certification equips him with the skills to identify hazards, assess risks, and implement effective safety measures in the workplace, particularly within the construction industry. His knowledge in managing health and safety ensures that projects are executed in compliance with safety standards, protecting both workers and the environment. This qualification further strengthens his capabilities in maintaining a secure and efficient work environment, an essential aspect of his professional career. πŸ¦Ίβš™οΈπŸ‘·β€β™‚οΈ

 

Research Focus

Mr. Nawab Sameerzada’s research interests revolve around improving the mechanical and environmental properties of construction materials, particularly in the context of concrete and asphalt. In the article “Hybrid Effect of Basalt Fibers and Carbon Fibers on Concrete Mechanical and Environmental Properties,” he explored the use of basalt and carbon fibers to enhance concrete’s durability and sustainability. Additionally, his work on enhancing the tensile strength of asphalt concrete through rock wool inclusion reflects his dedication to advancing material performance for infrastructure. His research aligns with sustainable engineering practices, focusing on strengthening materials and optimizing their environmental impact. πŸ—οΈπŸŒπŸ“Š

 

Publication Top Notes

  • “Hybrid Effect of Basalt Fibers and Carbon Fibers on Concrete Mechanical and Environmental Properties” (2025) – Results in Engineering πŸ”—
  • “Enhancing Tensile Strength of Asphalt Concrete Through Rock Wool Inclusion” (2025) – Lecture Notes in Civil Engineering πŸ”—