Development, Characterization, Application and Recycling of Novel Construction Materials

doi:10.3390/books978-3-7258-2145-7

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Hardback

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Keywords

prediction models; cement-bound aggregate; waste rubber; compressive strength; modulus of elasticity; ultrasonic pulse velocity; non-destructive testing; sandwich panels; FRCM; cementitious matrix; vegetal fibers; shear test; recycled 3D-printed concrete aggregate; particle size distribution; mix design; compressive strength; normal strength concrete; interfacial transition zone; cementitious materials; phase change materials; properties; durability; shrinkage; carbonation; concrete; durability; crystalline hydrophilic additives; freeze–thaw cycles; surface damage; internal damage; pore spacing factor; adhesion; cementitious composite; fiber-reinforced concrete; modification; polypropylene fibers; tannic acid; external sulfate attack; early age; supplementary cementitious materials; physicochemical behavior; long term durability; low carbon cement; geopolymer; automotive glass waste; alternative aggregate; characterization; machine learning; recycled concrete aggregate; moisture content; steel slag; carbon sequestration; water content; carbonation diffusion; pore; flaxseed mucilage; OPC; hydration; mechanical strength; FTIR; calorimetric analysis; SEM; alkaline degradation; mechanical performance; coarse and fine recycled aggregates; permeability; fresh-state concrete properties; n/a

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Development, Characterization, Application and Recycling of Novel Construction Materials

Edited by

September 2024

218 pages

ISBN 978-3-7258-2146-4 (Hardback)
ISBN 978-3-7258-2145-7 (PDF)

https://doi.org/10.3390/books978-3-7258-2145-7

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This is a Reprint of the Special Issue Development, Characterization, Application and Recycling of Novel Construction Materials that was published in

Chemistry & Materials Science

Summary

This reprint presents groundbreaking research on sustainable materials and construction practices. It covers eco-friendly material formulations, advanced characterization techniques, alternative binders like geopolymers, and the use of recycled aggregates and fibers. Innovative approaches to waste treatment and reuse are also explored. This collection is an essential resource for researchers and professionals striving to advance sustainability in materials science and engineering.

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