SEATTLE (Scrap Monster): The use of electronic waste (E-waste) in concrete has sparked significant interest due to its potential to address environmental issues and the increasing demand for aggregates. A recent study initiated a deep dive into this concept, focusing on the axial stress versus strain responses of concrete specimens made with E-waste as coarse aggregates, both un-strengthened and strengthened with carbon fiber reinforced polymer (CFRP) composites. The study’s central objective was to examine the feasibility of E-waste in concrete and the impact of CFRP confinement on its properties.
Impacts of E-Waste Aggregates on Concrete Strength
One of the study’s key findings was that substituting natural coarse aggregates with E-waste aggregates led to a reduction in compressive strength, a critical property of concrete. However, there was a significant increase when CFRP confinement was applied to the specimens. This demonstrated the role of CFRP in mitigating the impact of E-waste aggregates on compressive strength. Moreover, the study also investigated the effect of various factors such as cross-sectional geometry of specimens, partial substitution of natural aggregates, corner effect of non-circular specimens, and the number of confinement sheets.
CFRP Confinement: A Solution to E-Waste Concrete Challenges
Apart from the strength reduction, the use of E-waste in concrete has numerous benefits. It not only helps in creating a sustainable environment but also reduces concrete’s self-weight, increasing its ductility and improving deformation before failure. The study emphasized that the application of CFRP confinement can significantly enhance these properties, making E-waste concrete a viable option for future construction projects.
Exploring Other Reinforcement Strategies
While the use of CFRP for strengthening E-waste concrete shows promise, other reinforcement strategies are also being explored. For instance, a separate study used magnesium phosphate cement (MPC) to precoat recycled coarse aggregates (RCA) and assessed the mechanical properties and durability of recycled aggregate concrete (RAC) with the coated RCA. This study revealed that surface coating with MPC could enhance the comprehensive property of strengthening paste and consequently, improve the performance of the modified RAC. This indicates another potential approach to addressing the challenges in using recycled or waste materials in concrete.
Courtesy: www.medriva.com
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