Fields of Research (FoR)
Construction materials, Non-Newtonian fluid flows (incl. rheology)SEO tags
Biography
Dr Mohammed Alnahhal is a Postdoctoral Research Associate at the School of Civil & Environmental Engineering, UNSW Sydney, specialising in the development of innovative construction materials. He completed his PhD in Structural Engineering & Materials from UNSW in 2022. His expertise includes rheology of cementitious materials, concrete durability, alkali-activated materials, and microstructural analysis.
My Qualifications
Dr Mohammed Alnahhal is a Postdoctoral Research Associate at the School of Civil & Environmental Engineering, UNSW Sydney, specialising in the development of innovative construction materials. He completed his PhD in Structural Engineering & Materials from UNSW in 2022. His expertise includes rheology of cementitious materials, concrete durability, alkali-activated materials, and microstructural analysis.
My Qualifications
2022 PhD (Civil Engineering) - University of New South Wales, Sydney, Australia
2017 MEngSc (Structural Engineering & Materials) - University of Malaya, Kuala Lumpur, Malaysia
2015 Bachelor of Civil Engineering - The Islamic University of Gaza, Gaza, Palestine
My Awards
2022 Global Talent Independent program (GTI)
2018 Australian Government Research Training Program (RTP) Scholarship
2018 ITEX 2018 Gold Medal
2015 Graduate Research Assistantship Scheme (GRAS)
My Research Activities
My research focuses on the development and optimisation of innovative construction materials with a strong emphasis on sustainability and performance enhancement. I am actively involved in the following areas:
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Rheology of Cement and Alkali-Activated Materials: I conduct experimental and analytical investigations to understand the flow behaviour of cementitious and alkali-activated materials, aiming to optimise the workability and performance of fresh concrete.
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Concrete Durability and Microstructural Analysis: I explore the long-term durability properties of traditional and alternative concrete materials, focusing on factors like resistance to chemical attacks. Through microstructural analysis using advanced techniques (SEM, XRD, etc.), I examine the internal structure and composition of these materials to enhance their durability and service life.
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Sustainability and CO2 Reduction: Assessing the potential for using industrial by-products to reduce CO2 emissions and enhance the eco-friendliness of concrete.
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Publications
ORCID as entered in ROS
https://orcid.org/0000-0002-4921-1728