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Results 1-10 of 14 (Search time: 0.003 seconds).
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Issue DateTitleAuthor(s)
2018The effects of using agricultural waste as partial substitute for sand in cement blocksSathiparan, N.; De Zoysa, H.T.S.M.
2023Soft computing techniques to predict the compressive strength of groundnut shell ash-blended concreteSathiparan, N.; Pratheeba, J.
2023Predicting compressive strength of cementstabilized earth blocks using machine learning models incorporating cement content, ultrasonic pulse velocity, and electrical resistivitySathiparan, N.; Pratheeba, J.
2023A mathematical model to predict the porosity and compressive strength of pervious concrete based on the aggregate size, aggregate‑to‑cement ratio and compaction effortSathushka Heshan, W.; Thirugnasivam, S.; Daniel Niruban, S.; Sathiparan, N.
2023Prediction of characteristics of cement stabilized earth blocks using non-destructive testing: Ultrasonic pulse velocity and electrical resistivitySathiparan, N.; Jayasundara, W.G.B.S.; Samarakoon, K.S.D.; Banujan, B.
2021Strength and durability characteristics of cement blocks incorporating quarry dust as river sand replacementKosalya, S.; Arvinthan, P.; Anburuvel, A.; Sathiparan, N.
2021Manufactured Sand as River Sand Replacement for Masonry Binding MortarKosalya, S.; Arvinthan, P.; Sathiparan, N.
2023Prediction of compressive strength of fly ash blended pervious concrete: a machine learning approachSathiparan, N.; Pratheeba, J.; Daniel Niruban, S.
2022Modeling of hydration products and strength development for high-volume fly ash bindersKrishnya, S.; Herath, C.; Elakneswaran, Y.; Gunasekara, C.; Law, D.W.; Sujeeva, S.
2023Investigation of Compaction on Compressive Strength and Porosity of Pervious ConcreteSajeevan, M.; Daniel Niruban, S.; Rinduja, R.; Pratheeba, J.