Items where Author is "Abd Razak, S.N."
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Salleh, R. and Mohd Sidek, L. and Abdul Rashid, R. and Basri, H. and Kumar, V. and Abd Razak, S.N. and Khalid Ali, K. and Singh, P. (2024) Socio-Economic Impact Assessment of Dam Break: A Case Study of Hulu Perak Dams in Malaysia. Lecture Notes in Civil Engineering, 353 LN. pp. 51-65.
Kumar, V. and Kutty, S.R.M. and Abd Razak, S.N. and Shafiq, N. and Adebanjo, A. and Baloo, L. and Azougagh, A.-A. and Iseni, R. (2023) Exploring the untapped potentials of oily sludge ash blended with fly ash for geopolymer binder via waste valorisation approach. Journal of Hazardous Materials Letters, 4.
Nordin, S.M. and Lohana, S. and Abd Razak, S.N. and Kumar, V. and Abdul Rashid, R. and Ahmad Rizal, A.R. and Atmadji, E. (2023) Identification of Opportunities for Espousing Green Fertilizers Technology Among Smallholder Paddy Farmers for Higher Productivity and Environmental Sustenance. SAGE Open, 13 (4).
Abd Razak, S.N. and Shafiq, N. and Guillaumat, L. and Farhan, S.A. and Lohana, V.K. (2022) Fire-Exposed Fly-Ash-Based Geopolymer Concrete: Effects of Burning Temperature on Mechanical and Microstructural Properties. Materials, 15 (5). ISSN 19961944
Abd Razak, S.N. and Guillaumat, L. and Shafiq, N. (2021) Effect of fire flame exposure on basalt and carbon fiber-reinforced concrete. Lecture Notes in Civil Engineering, 132. pp. 573-579. ISSN 23662557
Conference or Workshop Item
Usman Adebanjo, A. and Shafiq, N. and Abd Razak, S.N. and Kumar, V. and Farhan, S.A. (2024) Effect of nanosized titanium dioxide and zinc oxide as antimicrobial agents on early compressive strength of high-performance concrete. In: UNSPECIFIED.
Abd Razak, S.N. and Shafiq, N. and Wan Zawawi, N.A. and Kumar, V. and Adebanjo, A. and Guillaumat, L. (2024) Enhancing Mechanical Properties and Antimicrobial Activity of Portland Cement through Titanium Oxide Incorporation. In: UNSPECIFIED.
Abd Razak, S.N. and Shafiq, N. and Hasan Nikbakht, E. and Mohammed, B.S. and Guillaumat, L. and Farhan, S.A. (2022) Fire performance of fly-ash-based geopolymer concrete: Effect of burning temperature on mechanical and microstructural properties. In: UNSPECIFIED.