Yashar Doroudi scite author profile

The utilization of by-products and waste materials to substitute for the natural or manufactured resources is considered as a practical way to obtain green building materials. In concrete mixtures, amongst the many available options, Fly Ash (FA) as a by-product pozzolan has been used as a partial replacement of cement. As for the aggregates, lightweight agro-waste oil palm shell (OPS) can be used as a replacement to conventional aggregate for the production of lightweight aggregate concrete. The present communication aims to investigate the impact of FA on time-dependent development properties of OPS lightweight aggregate concrete, including density, water absorption, compressive strength up to 120-days, and drying shrinkage up to the age of 365-days under standard moist curing, partially early curing, and non-curing conditions. Additionally, drying shrinkage crack development was investigated. In this study, two series of concrete mixtures with different substitution levels of OPS (0%, 50%, and 100%) and FA were tested. From the obtained results, it was concluded that the incorporation of fly ash in OPS concrete reduces the density and compressive strength values. Dually, the initial and final water absorption values plus the rate of drying shrinkage at early and long-term ages increased. On top of that, a high potential of drying shrinkage crack, especially for mixtures with 100% OPS, was identified.

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Fatigue behavior of FRP-to-steel bonded interface: An experimental study with a damage plasticity model

Doroudi

Fernando

Zhou

et al. 2020

International Journal of Fatigue

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Yashar Doroudi

Experimental Study on CFRP-to-Steel Bonded Interfaces under Quasi-Static Cyclic Loading

Appropriate drying shrinkage prediction models for lightweight concrete containing coarse agro-waste aggregate

Behavior of cracked steel plates strengthened with adhesively bonded CFRP laminates under fatigue Loading: Experimental and analytical study

Impact of Fly Ash on Time-Dependent Properties of Agro-Waste Lightweight Aggregate Concrete

Fatigue behavior of FRP-to-steel bonded interface: An experimental study with a damage plasticity model

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