Carbon nanotubes (CNTs) are potential candidates to enhance the heat balance of concrete, reducing internal stresses caused by differential heating in massive concrete elements. The higher the aspect ratio (AR) and...
Read MoreCeramic glass foam/foams (CGF) from two different F-class fly ashes were produced via a well-known simple conventional sintering method using sodium silicate (Na₂SiO₃) as a foaming and fluxing agent. The research...
Read MoreThe presence of moisture inside building materials decreases their thermal and mechanical performances. Knowing the variability of these properties as a function of saturation is essential both to evaluate the aging of...
Read MoreAbstract: The incorporation of phase change materials (PCMs) in building envelopes for passive thermal storage can enhance the thermal mass effect and thereby reduce energy consumption. In this investigation,...
Read MoreAbstract: This study demonstrated the positive impacts of low-cost PCMs in producing new building materials capable of providing excellent thermal insulation in summer, and great resisting freezing and thawing cycles...
Read MoreAbstract: Natural polymers like cellulose are rich in hydrophilic groups those are able to form intermolecular and intramolecular hydrogen bonding interactions. The regulation of such interactions can be critical for...
Read MoreAbstract: Porous cordierite materials are 3D printed by robocasting from two kaolin containing raw materials mixtures. Water suspensions of both mixtures at variable solid concentrations (40–67 wt%) are characterized...
Read MoreUsing phase change materials (PCMs) to store and release latent heat is one of the most efficient and reliable ways to reduce energy consumption. In this study, a PCM/wood–plastic composite (WPC) roof module system...
Read MoreDue to urbanization, most people want to live in a sophisticated ambiance in this modern age. Consequently, they have ready to spend massive investment on improving their buildings’ inside condition by fixing costly...
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