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Mechanical Reliability and Thermal Stability of Advanced Construction Materials under Bangladesh Climatic Conditions

Students & Supervisors

Student Authors
Nafisa Tasnim Rodoshi
Bachelor of Science in Computer Science & Engineering, FST
Md Tanvir Khan
Bachelor of Science in Computer Science & Engineering, FST
Rayhanul Islam
Bachelor of Science in Computer Science & Engineering, FST
Ishrak Jahan Mim
Bachelor of Science in Computer Science & Engineering, FST
Supervisors
Md. Mortuza Ahmmed
Associate Professor, Faculty, FST

Abstract

Advanced Construction Materials have been crucial in our country’s infrastructure development over the last decades. Although there is technological advancement, these materials face serious challenges in mechanical reliability, thermal stability and humidity resistance. The study explores how Bangladesh’s climate impacts the performance of advanced construction materials over a 30-year period from 1995 to 2024. The research deploys a secondary data sourced from the BMD (Bangladesh Meteorological Department) climate reports, World Bank WDI (World Development Indicator), Springer Materials and Materials Projects records. Variables such as Mechanical Strength Scores, Thermal Stability Indices and Humidity resistance Ratings were analyzed over the time period 1995-2024. The data were analyzed on the basis of descriptive statistics to analyze the trend. Trends and testing of the variable's relationship were determined by bar chart analysis which shows that there is a consistent yet differentiated regression in material performance. All 3 metrics shows that there is a consistent yet differentiated linear progression in material performance. Mechanical Strength showed a net increase of 80.0, rising from 10.0 in 1995 to 90 in 2024. Thermal Stability showed a net increase of 65.0, rising from 20 in 1995 to 85 in 2024. Humidity resistance showed a net increase of 50.0, rising from 30 in 1995 to 80 in 2024, indicating slower relative advancement. However, the various rates of improvement suggests that external factors, such as Bangladesh’s high humidity and temperature changes might be affecting humidity resistance unevenly. Progress in advanced construction materials under Bangladesh’s climate is reliable but imbalanced in performance metrics. Existing advancements are insufficient for log-term sustainability. Achieving sustainable material reliability demands policy shifts towards enhanced formulation of humidity adaptation, improved testing infrastructure, and a comprehensive climate-responsive ecosystem.

Keywords

Advanced Construction Materials Mechanical Reliability Thermal Stability Humidity Resistance Climate-Responsive Infrastructure Sustainable Construction Bangladesh Climate Conditions

Publication Details

  • Type of Publication:
  • Conference Name: International Conference on Electronics and Informatics 2026
  • Date of Conference: 05/07/2026 - 05/07/2026
  • Venue: Atomic Energy Centre, Dhaka
  • Organizer: Bangladesh Electronics and Informatics Society