Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
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Green composites aiming to find ecofriendly ingredients and save natural resources have been widely investigated for years using agricultural and industrial wastes and by-products, natural biomaterials, etc. Besides the basic mechanical performance of green composites, the life-cycle performance of green composites under single/multiple environmental conditions should also be worthy of attention, since green ingredients sometimes reduce the durability performance of green composites, especially under fire/high temperatures, freeze-thaw cycling, dry-wet cycling, and salt corrosion. The aim of t...
Green composites aiming to find ecofriendly ingredients and save natural resources have been widely investigated for years using agricultural and industrial wastes and by-products, natural biomaterials, etc. Besides the basic mechanical performance of green composites, the life-cycle performance of green composites under single/multiple environmental conditions should also be worthy of attention, since green ingredients sometimes reduce the durability performance of green composites, especially under fire/high temperatures, freeze-thaw cycling, dry-wet cycling, and salt corrosion. The aim of this Special Issue was to publish papers that advance the life-cycle performance of green composites under complex environmental conditions.
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