| 1 |
Performance of Carbide Lime Waste Mortar via 24 Hours Accelerated CO2 Curing
|
International Journal of Integrated Engineering |
2024 |
|
| 2 |
Effects of Waste Glass Bottle Nanoparticles and High Volume of Waste Ceramic Tiles on Concrete Performance When Exposed to Elevated Temperatures Experimental and Theoretical Evaluations |
Fire |
2024 |
fx6rig0_9tk1usv.pdf
|
| 3 |
Development sustainable concrete with high-volume wastes tile ceramic: Role of silica nanoparticles amalgamation |
Case Studies in Construction Materials |
2024 |
e07ct1ansk6g2yh.pdf
|
| 4 |
Improved Bond Strength Performance of Geopolymer Mortars: Role of High Volume Ground Blast Furnace Slag, Fly Ash, and Palm Oil Fuel Ash Incorporation |
Minerals |
2023 |
hwnfabyrv2dotsq.pdf
|
| 5 |
Compressive Strength of Light-Weight Concrete Material Made from Treated Wood Waste as a Coarse Aggregate |
bioresources |
2023 |
oftlwe0b1d9_pih.pdf
|
| 6 |
Engineering Properties of Modified Rubberized Concretes: Role of Metakaolin and Ground Blast Furnace Slag as Ordinary Portland Cement Replacements |
Eng |
2024 |
w3x6j1me2u8br7n.pdf
|
| 7 |
Theoretical assessment of using ceramic tiles as replacement of Ordinary Portland Cement and sand |
IOP Conference Series: Materials Science and Engineering |
2021 |
39odb0nmpeiqw7y.pdf
|
| 8 |
Sustainability Evaluation of Alkali-activated Mortars Incorporating Industrial Wastes |
Materials today: proceeding –Elsevier |
2021 |
2i53bgxcon8lyh0.pdf
|
| 9 |
Laboratory Evaluation of Alkali-activated Mortars Modified with Nanosilica from Glass Bottle Wastes |
Materials today: proceeding –Elsevier |
2021 |
my7pz3t19n0rvx6.pdf
|
| 10 |
Compressive Strength and Microstructure Properties of Modified Concrete Incorporated Effective Microorganism and Fly Ash |
Materials today: proceeding –Elsevier |
2021 |
v1tbfl2ms67_k3e.pdf
|
| 11 |
Durability performance of modified concrete incorporating fly ash and effective microorganism |
Construction And Building Materails |
2020 |
inghw9c5a7yqsxl.pdf
|
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