Beihang University, Malaysia.
Prof. Ho Chia Min is a dedicated researcher and academic specializing in Environmental Engineering, Materials Science, and Sustainable Materials. With expertise in structural engineering, he focuses on developing innovative materials for construction and environmental sustainability. Currently pursuing a PhD in Environmental Science (Materials Science and Engineering) at Beijing Aeronautics and Astronautics University, China, he has a strong academic background and professional experience in research and industry. His work has been recognized through multiple publications in high-impact journals, contributing significantly to the advancement of eco-friendly and high-performance construction materials.
Profile
π Education
Ms. Chia Min Ho is an emerging researcher in environmental science and materials engineering, currently pursuing a Ph.D. in Environmental Science (Materials Science and Engineering) at Beijing Aeronautics and Astronautics University, China (2024 β Present). She holds a Master of Science in Civil Engineering (Materials and Structures) from University Malaysia Pahang (2021 β 2023) and a Bachelorβs Degree (Hons) in Civil Engineering from the same university (2017 β 2021). Her academic journey began with a Diploma in Civil Engineering from Polytechnic Sultan Salahuddin Abdul Aziz Shah, Malaysia (2014 β 2017). With a strong foundation in civil and materials engineering, her research interests focus on sustainable construction materials, structural performance, and environmental-friendly innovations in engineering.
πΌ Experience
Ms. Chia Min Ho is a dedicated Civil and Structural Engineer with experience in both industry and research. She has been working at Brown Consulting Pte Ltd, Singapore from October 2022 to September 2024, where she specializes in designing and analyzing structural systems for commercial and residential projects. Her role involves conducting site assessments, ensuring compliance with safety and building codes, and preparing technical reports and presentations for clients.
Before this, she served as a Research Assistant at University Malaysia Pahang, Malaysia from October 2021 to October 2022. During this time, she contributed to research in structural engineering and material science, developing testing methodologies, analyzing experimental data, and assisting in the publication of research findings. Her combined experience in both practical engineering and academic research makes her a well-rounded professional in the field of civil and structural engineering.
π¬ Research Interests
Environmental Engineering β Sustainable construction materials and eco-friendly practices
Materials Engineering β Development of high-performance and durable building materials
Sustainable Materials β Utilizing industrial byproducts like steel slag in cement and concrete applications
Structural Engineering β Evaluating material performance under extreme conditions (elevated temperatures, water absorption, etc.)
π Awards & Honors
Young Researcher Excellence Award β Recognized for outstanding contributions to environmental and materials engineering research
Best Paper Award β Awarded for innovative research on cement replacement using steel slag
Top 10 Emerging Scientists in Materials Engineering β Recognized for advancements in sustainable materials
π Selected Publications
1οΈβ£ Ho, C. M., Doh, S. I., Chin, S. C., & Li, X. (2024). The effect of particle sizes of steel slag as cement replacement in high strength concrete under elevated temperatures. Construction and Building Materials, 411, 134531.Β (Cited by: 0)
2οΈβ£ Ho, C. M., Doh, S. I., Chin, S. C., & Li, X. (2023). Prediction of concrete residual compressive strength under elevated temperatures: Response surface methodology (RSM) approach. Materials Today: Proceedings. (Cited by: 0)
3οΈβ£ Ho, C. M., Doh, S. I., Jing, G., Chin, S. C., & Li, X. (2023, May). Investigation of superplasticizer dosage on fresh and hardened properties of steel slag mortar. AIP Conference Proceedings, 2688(1). Β (Cited by: 0)
4οΈβ£ Ho, C. M., Doh, S. I., Li, X., Chin, S. C., & Ashraf, T. (2022). RSM-based modelling of cement mortar with various water-to-cement ratio and steel slag content. Physics and Chemistry of the Earth, 128, 103256. (Cited by: 3)
5οΈβ£ Ho, C. M., Doh, S. I., Al-Btoush, A. M., Li, X., & Chin, S. C. (2022). The impact of alkali activator dosage on the compressive strength and water absorption of steel slag concrete. Materials Today: Proceedings, 51, 1323-1326. (Cited by: 2)