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2022 (3)

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Book
New Frontiers in Cementitious and Lime-Based Materials and Composites
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Cement and lime currently are the most common binders in building materials. However, alternative materials and methods are needed to overcome the functional limitations and environmental footprint of conventional products. This Special Issue dedicated to “New frontiers in cementitious and lime-based materials and composites” gathers selected reviews and experimental articles that showcase the most recent trends in this multidisciplinary field. Authoritative contributions from all around the world provide important insights into all areas of research related to cementitious and lime-based materials and composites, spanning from structural engineering to geotechnics, including materials science and processing technology. This Topical Collection is intended to foster innovation and help researchers and developers to identify new solutions for a more sustainable and functional built environment.

Keywords

durability --- hardened properties --- green composite --- fresh properties --- recycled concrete aggregates --- natural coarse aggregates --- enzyme-induced calcite precipitation --- microbial-induced calcite precipitation --- geotechnical engineering --- geoenvironmental engineering --- precast concrete wall --- interfacial bonding strength --- joint concrete --- interface processing --- washed rough surface --- roughness --- storage time --- cement mortar --- End-of-Life Tyre --- waste --- surface treatment --- compressive strength --- flexural strength --- workability --- fly ash --- freezing shaft sinking --- shaft lining structure --- uneven pressure --- hybrid fiber-reinforced concrete --- crack --- autogenous self-healing --- curing conditions --- supplementary cementitious materials (SCMs) --- GRC-PC --- integrated wall panels --- composite method --- shrinkage properties --- dissipation energy density --- high-strength concrete --- Weibull distribution --- damage mechanics --- constitutive model --- repeated impact --- ACI 544-2R --- high temperatures --- fire --- residual strength --- lime-cement mortar --- air-entrained agent --- heritage conservation --- reconstruction and restoration of historical buildings --- properties --- mechanical --- electrical resistivity --- ecofriendly ternary concrete --- SCBA --- SF --- coastal cemented soil --- nano silica --- iron tailings --- mechanical properties --- microscopic mechanism --- granite dust --- stabilizer --- particle size --- plasticity --- unconfined compression strength --- cement --- lime --- sustainable materials --- fibre-reinforced composite --- recycled aggregates


Book
New Frontiers in Cementitious and Lime-Based Materials and Composites
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Cement and lime currently are the most common binders in building materials. However, alternative materials and methods are needed to overcome the functional limitations and environmental footprint of conventional products. This Special Issue dedicated to “New frontiers in cementitious and lime-based materials and composites” gathers selected reviews and experimental articles that showcase the most recent trends in this multidisciplinary field. Authoritative contributions from all around the world provide important insights into all areas of research related to cementitious and lime-based materials and composites, spanning from structural engineering to geotechnics, including materials science and processing technology. This Topical Collection is intended to foster innovation and help researchers and developers to identify new solutions for a more sustainable and functional built environment.

Keywords

Technology: general issues --- History of engineering & technology --- durability --- hardened properties --- green composite --- fresh properties --- recycled concrete aggregates --- natural coarse aggregates --- enzyme-induced calcite precipitation --- microbial-induced calcite precipitation --- geotechnical engineering --- geoenvironmental engineering --- precast concrete wall --- interfacial bonding strength --- joint concrete --- interface processing --- washed rough surface --- roughness --- storage time --- cement mortar --- End-of-Life Tyre --- waste --- surface treatment --- compressive strength --- flexural strength --- workability --- fly ash --- freezing shaft sinking --- shaft lining structure --- uneven pressure --- hybrid fiber-reinforced concrete --- crack --- autogenous self-healing --- curing conditions --- supplementary cementitious materials (SCMs) --- GRC-PC --- integrated wall panels --- composite method --- shrinkage properties --- dissipation energy density --- high-strength concrete --- Weibull distribution --- damage mechanics --- constitutive model --- repeated impact --- ACI 544-2R --- high temperatures --- fire --- residual strength --- lime-cement mortar --- air-entrained agent --- heritage conservation --- reconstruction and restoration of historical buildings --- properties --- mechanical --- electrical resistivity --- ecofriendly ternary concrete --- SCBA --- SF --- coastal cemented soil --- nano silica --- iron tailings --- mechanical properties --- microscopic mechanism --- granite dust --- stabilizer --- particle size --- plasticity --- unconfined compression strength --- cement --- lime --- sustainable materials --- fibre-reinforced composite --- recycled aggregates --- durability --- hardened properties --- green composite --- fresh properties --- recycled concrete aggregates --- natural coarse aggregates --- enzyme-induced calcite precipitation --- microbial-induced calcite precipitation --- geotechnical engineering --- geoenvironmental engineering --- precast concrete wall --- interfacial bonding strength --- joint concrete --- interface processing --- washed rough surface --- roughness --- storage time --- cement mortar --- End-of-Life Tyre --- waste --- surface treatment --- compressive strength --- flexural strength --- workability --- fly ash --- freezing shaft sinking --- shaft lining structure --- uneven pressure --- hybrid fiber-reinforced concrete --- crack --- autogenous self-healing --- curing conditions --- supplementary cementitious materials (SCMs) --- GRC-PC --- integrated wall panels --- composite method --- shrinkage properties --- dissipation energy density --- high-strength concrete --- Weibull distribution --- damage mechanics --- constitutive model --- repeated impact --- ACI 544-2R --- high temperatures --- fire --- residual strength --- lime-cement mortar --- air-entrained agent --- heritage conservation --- reconstruction and restoration of historical buildings --- properties --- mechanical --- electrical resistivity --- ecofriendly ternary concrete --- SCBA --- SF --- coastal cemented soil --- nano silica --- iron tailings --- mechanical properties --- microscopic mechanism --- granite dust --- stabilizer --- particle size --- plasticity --- unconfined compression strength --- cement --- lime --- sustainable materials --- fibre-reinforced composite --- recycled aggregates


Book
New Frontiers in Cementitious and Lime-Based Materials and Composites
Authors: --- --- ---
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

Cement and lime currently are the most common binders in building materials. However, alternative materials and methods are needed to overcome the functional limitations and environmental footprint of conventional products. This Special Issue dedicated to “New frontiers in cementitious and lime-based materials and composites” gathers selected reviews and experimental articles that showcase the most recent trends in this multidisciplinary field. Authoritative contributions from all around the world provide important insights into all areas of research related to cementitious and lime-based materials and composites, spanning from structural engineering to geotechnics, including materials science and processing technology. This Topical Collection is intended to foster innovation and help researchers and developers to identify new solutions for a more sustainable and functional built environment.

Keywords

Technology: general issues --- History of engineering & technology --- durability --- hardened properties --- green composite --- fresh properties --- recycled concrete aggregates --- natural coarse aggregates --- enzyme-induced calcite precipitation --- microbial-induced calcite precipitation --- geotechnical engineering --- geoenvironmental engineering --- precast concrete wall --- interfacial bonding strength --- joint concrete --- interface processing --- washed rough surface --- roughness --- storage time --- cement mortar --- End-of-Life Tyre --- waste --- surface treatment --- compressive strength --- flexural strength --- workability --- fly ash --- freezing shaft sinking --- shaft lining structure --- uneven pressure --- hybrid fiber-reinforced concrete --- crack --- autogenous self-healing --- curing conditions --- supplementary cementitious materials (SCMs) --- GRC-PC --- integrated wall panels --- composite method --- shrinkage properties --- dissipation energy density --- high-strength concrete --- Weibull distribution --- damage mechanics --- constitutive model --- repeated impact --- ACI 544-2R --- high temperatures --- fire --- residual strength --- lime-cement mortar --- air-entrained agent --- heritage conservation --- reconstruction and restoration of historical buildings --- properties --- mechanical --- electrical resistivity --- ecofriendly ternary concrete --- SCBA --- SF --- coastal cemented soil --- nano silica --- iron tailings --- mechanical properties --- microscopic mechanism --- granite dust --- stabilizer --- particle size --- plasticity --- unconfined compression strength --- cement --- lime --- sustainable materials --- fibre-reinforced composite --- recycled aggregates

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