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      https://www.ias.ac.in/article/fulltext/sadh/046/0103

    • Keywords

       

      High-volume fly ash; PCM; phase change materials; eco-friendly blocks; compressive strength.

    • Abstract

       

      The present study explores the feasibility of microencapsulated phase change material (PCM) admixed high-volume fly ash (HVFA)–bottom ash (BA)–cement mixes for manufacture of masonry bricks. The cementitious mixes investigated in the present study are cement–HVFA–PCM pastes and cement–HVFA–PCM–sand (S)/ BA mixes, both with two different types and percentages of PCM. Experimental techniques based on packing density method are presented for determination of optimal mix proportions from workability and thermal performance viewpoint. Thermal, mechanical and durability-related properties of these mixes are analyzed through experimental investigations. The results of the study reveal that the developed mixes possess compressive strengths as high as 15 MPa, which is high enough for them to be used as masonry blocks. ThePCM mixes are found to yield temperature reductions of 5°C over and above the control mixes, which is a significant improvement. PCM admixed HVFA–BA -cement mixes are found to be most congenial of all the mixes from thermal performance viewpoint due to their low thermal conductivities and high porosities. It is also found that PCM–HVFA–BA–cement mixes are lesser energy intensive, emit lesser carbon dioxide and are lighter in weight compared with conventional clay bricks

    • Author Affiliations

       

      SURESH KUMAR PADALA1 SHRADDHA JAYANT DESHPANDE1 BISHWAJIT BHATTACHARJEE1

      1. Department of Civil Engineering, Indian Institute of Technology Delhi, New Delhi 110016, India
    • Dates

       
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