Low Binder Concrete and Mortars

doi:10.3390/books978-3-03936-584-5

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Low Binder Concrete and Mortars

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July 2020

310 pages

ISBN978-3-03936-583-8 (Hardback)
ISBN978-3-03936-584-5 (PDF)

https://doi.org/10.3390/books978-3-03936-584-5

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This book is a reprint of the Special Issue Low Binder Concrete and Mortars that was published in

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

This book is the result of a Special Issue published in Applied Sciences entitled “Low Binder Concrete and Mortars". The main aim of this work is to highlight practical approaches that facilitate the production of low binder content concrete and mortar with an acceptable level of technical performance (e.g., mechanical and durability) and environmental impacts (e.g., ecotoxicological and global warming). Its contents are organized in the following sections: Developing Zero-Cement Binder; Ecotoxicological and Chemical Characteristics of the Non-conventional Materials Used to Replace Cement and Natural Aggregates; Reduce the Environmental Impacts and Resources Use of Binders; Modify the Characteristics of the Cement-Based Materials; Low Binder Concrete On-Site Application; Sustainable Cement-Based Materials in Road Engineering.

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Hardback

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Keywords

basalt fiber; polypropylene fiber; hybrid fiber-reinforced concrete; mechanical properties; pore structure; fractal dimension; alkali-activated slag; steel microfibers; fracture test; identification; work-of-fracture method; double-K model; crack propagation; sustainable; extrudability; early-age strength; limestone and calcined clay; 3D concrete printing; textile reinforced mortar; non-impregnated textile; textile reinforcement ratio; textile lamination; mesh size; end anchorage; strengthening efficiency; limestone powder; cemented paste backfill; image analysis; pore characteristics; polyvinyl alcohol; cement mortar; mechanical properties; microstructure; crossover effect; cementitious materials; compressive strength; accelerated curing; concrete; mortar; full-depth reclamation; recycling; pavement rehabilitation; cement-treated materials; base materials; unconfined compressive strength; flexural strength; splitting tensile strength; indirect tensile strength; cement stabilized macadam; sandstone; limestone; road performance; freeze-thaw cycles; EVA-modified cementitious mortars; additive construction; short-term deformability; modulus of elasticity; drying shrinkage; coefficient of thermal expansion; green concrete; life cycle assessment; environmental impact assessment; inventory data; allocation; functional unit; service life; deep learning; convolutional neural network; SEM images; rammed earth; cement-stabilized rammed earth; cement stabilization; road engineering; construction waste clay brick; cement stabilized macadam; unconfined compressive strength; potential activity; bentonite; compressive strength; sorptivity; acid attack resistance; durability of concrete; eco-efficient binder; low-cost binder; chemical characterization; concrete; construction material; ecotoxicology; fly ash; leachate; raw material; recycled aggregates; sustainability; supplementary cementitious materials; natural fiber; LC³; kenaf fiber; mechanical properties; durability; calcined clay; limestone; fine recycled aggregates; construction and demolition waste; recycled aggregate concrete; life cycle assessment; sustainability; optimization; carbonate-high illite clay; alkali activation; NaOH; activator concentration; n/a