@incollection{, F9B4597513A2870F20BD1A8AEF681C73 , author={{VíctorRevilla-Cuesta} and {VanesaOrtega-López} and {MartaSkaf} and {FranciscoFiol} and {Juan M.Manso}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}2121121 } @incollection{b0, , title={{Estimation of environmental emissions and impacts of building construction -A decision making tool for contractors}} , author={{ MSandanayake } and { GZhang } and { SSetunge }} , journal={{J. Build. Eng}} 21 , year={2019} } @incollection{b1, , title={{Environmental impact assessment of beef cattle production in semi-intensive systems in Paraguay}} , author={{ MCostantini } and { IVázquez-Rowe } and { AManzardo } and { JBacenetti }} , journal={{Sustain. Prod. Consum}} 27 , year={2021} } @incollection{b2, , title={{Performance and durability of porous asphalt mixtures manufactured exclusively with electric steel slags}} , author={{ MSkaf } and { EPasquini } and { VRevilla-Cuesta } and { VOrtega-López }} , journal={{Materials}} 12 20 3306 , year={2019} } @incollection{b3, , title={{Can Portland cement be replaced by low-carbon alternative materials? A study on the thermal properties and carbon emissions of innovative cements}} , author={{ RMaddalena } and { JJRoberts } and { AHamilton }} , journal={{J. Clean. Prod}} 186 , year={2018} } @incollection{b4, , title={{Recycled aggregate from C&D waste & its use in concrete -A breakthrough towards sustainability in construction sector: A review}} , author={{ MBehera } and { SKBhattacharyya } and { AKMinocha } and { RDeoliya } and { SMaiti }} , journal={{Constr. Build. Mater}} 68 , year={2014} } @incollection{b5, , title={{Durability studies on fiber-reinforced EAF slag concrete for pavements}} , author={{ VOrtega-López } and { JAFuente-Alonso } and { ASantamaría } and { JTSan-José } and { ÁAragón }} , journal={{Constr. Build. Mater}} 163 , year={2018} } @incollection{b6, , title={{Dimensional stability of electric arc furnace slag in civil engineering applications}} , author={{ ASantamaria } and { FFaleschini } and { GGiacomello } and { KBrunelli } and { JTSan José } and { CPellegrino } and { MPasetto }} , journal={{J. Clean. Prod}} 205 , year={2018} } @incollection{b7, , title={{The influence of recycled aggregates from precast elements on the mechanical properties of structural self-compacting concrete}} , author={{ FFiol } and { CThomas } and { CMuñoz } and { VOrtega-López } and { JMManso }} , journal={{Constr. Build. Mater}} 182 , year={2018} } @incollection{b8, , title={{Limiting properties in the characterisation of mixed recycled aggregates for use in the manufacture of concrete}} , author={{ FAgrela } and { MSánchez De Juan } and { JAyuso } and { VLGeraldes } and { JRJiménez }} , journal={{Constr. Build. Mater}} 25 10 , year={2011} } @incollection{b9, , title={{Self-compacting concrete}} , author={{ HOkamura } and { MOuchi }} , journal={{J. Adv. Concr. Technol}} 1 , year={2003} } @incollection{b10, , title={{Quantitative evaluation method for the effect of superplasticizer in self-compacting concrete}} , author={{ MOuchi } and { MHibino } and { TSugamata } and { HOkamura }} , journal={{Trans. Jpn. Concr. Inst}} 22 , year={2000} } @incollection{b11, , title={{Selfcompacting concrete with recycled aggregates -A literature review}} , author={{ SASantos } and { PRSilva } and { JBrito }} , journal={{J. Build. Eng}} 22 , year={2019} } @incollection{b12, , title={{Self-compacting concrete manufactured with recycled concrete aggregate: An overview}} , author={{ VRevilla-Cuesta } and { MSkaf } and { FFaleschini } and { JMManso } and { VOrtega-López }} , journal={{J. Clean. Prod}} 262 121362 , year={2020} } @incollection{b13, , title={{Specification Guidelines for Selfcompacting Concrete, European Federation of National Associations Representing producers and applicators of specialist building products for Concrete}} , journal={{EFNARC}} , year={2002} } @incollection{b14, , title={{Fresh-state performance of recycled aggregate concrete: A review}} , author={{ RVSilva } and { JBrito } and { RKDhir }} , journal={{Constr. Build. Mater}} 178 , year={2018} } @incollection{b15, , title={{The influence of the use of recycled aggregates on the compressive strength of concrete: A review}} , author={{ RVSilva } and { JDeBrito } and { RKDhir }} , journal={{Eur. J. Environ. Civ. Eng}} 19 7 , year={2015} } @incollection{b16, , title={{Effect of fine recycled concrete aggregate on the mechanical behavior of self-compacting concrete}} , author={{ VRevilla-Cuesta } and { VOrtega-López } and { MSkaf } and { JMManso }} , journal={{Constr. Build. Mater}} 263 120671 , year={2020} } @incollection{b17, , title={{Assessment of treated recycled concrete aggregates on the properties of recycledaggregate-self-compacting concrete}} , author={{ HWang } and { NZhang }} , journal={{Harbin Gongye Daxue Xuebao}} 48 6 , year={2016} } @incollection{b18, , title={{Utilization of waste concrete recycling materials in self-compacting concrete}} , author={{ CSun } and { QChen } and { JXiao } and { WLiu }} , journal={{Resour. Conserv. Recycl}} 161 104930 , year={2020} } @incollection{b19, , title={{Performance Characteristics of Self-cured Recycled Aggregate Concrete with SCM's}} , author={{ LThotakura } and { SK RPullalacheruvu } and { GBKodeboyina } and { VK RMupparisetty }} , journal={{Lect. Notes Civ. Eng}} 97 , year={2021} } @incollection{b20, , title={{Thermal deformability of recycled self-compacting concrete under cyclical temperature variations}} , author={{ VRevilla-Cuesta } and { MSkaf } and { JAChica } and { JAFuente-Alonso } and { VOrtega-López }} , journal={{Mater. Lett}} 278 128417 , year={2020} } @incollection{b21, , title={{Micro-and macro-porosity of dry-and saturated-state recycled aggregate concrete}} , author={{ CThomas } and { JSetién } and { JAPolanco } and { JBrito } and { FFiol }} , journal={{J. Clean. Prod}} 211 , year={2019} } @incollection{b22, , title={{Influence of recycled precast concrete aggregate on durability of concrete's physical processes}} , author={{ FFiol } and { CThomas } and { JMManso } and { ILópez }} , journal={{Appl. Sci}} 10 20 7348 , year={2020} } @incollection{b23, , title={{Micro-structural analysis of recycled concretes made with recycled coarse concrete aggregates}} , author={{ HJalilifar } and { FSajedi }} , journal={{Constr. Build. Mater}} 267 121041 , year={2021} } @incollection{b24, , title={{Transport mechanisms as indicators of the durability of precast recycled concrete}} , author={{ FFiol } and { CThomas } and { JMManso } and { ILópez }} , journal={{Constr. Build. Mater}} 269 121263 , year={2021} } @incollection{b25, , title={{Rheology of fresh concretes with recycled aggregates}} , author={{ FFaleschini } and { CJiménez } and { MBarra } and { DAponte } and { EVázquez } and { CPellegrino }} , journal={{Constr. Build .Mater}} 73 , year={2014} } @incollection{b26, , title={{Statistical approach for the design of structural self-compacting concrete with fine recycled concrete aggregate}} , author={{ VRevilla-Cuesta } and { MSkaf } and { ABEspinosa } and { ASantamaría } and { VOrtega-López }} , journal={{Mathematics}} 8 12 2190 , year={2020} } @incollection{b27, , title={{Concrete with fine recycled aggregates: A review}} , author={{ LEvangelista } and { JDeBrito }} , journal={{Eur. J. Environ. Civ. Eng}} 18 2 , year={2014} } @incollection{b28, , title={{Mechanical performance evaluation of self-compacting concrete with fine and coarse recycled aggregates from the precast industry}} , author={{ SASantos } and { PRSilva } and { JBrito }} , journal={{Materials}} 10 8 904 , year={2017} } @incollection{b29, , title={{Properties of self-compacting concrete prepared with coarse recycled concrete aggregate}} , author={{ ZJGrdic } and { GAToplicic-Curcic } and { IMDespotovic } and { NSRistic }} , journal={{Constr. Build. Mater}} 24 7 , year={2010} } @incollection{b30, , title={{Study of the rheology of self-compacting concrete with fine recycled concrete aggregates}} , author={{ DCarro-López } and { BGonzález-Fonteboa } and { JDeBrito } and { FMartínez-Abella } and { IGonzález-Taboada } and { PSilva }} , journal={{Constr. Build. Mater}} 96 , year={2015} } @incollection{b31, , title={{Effect of shrinkage reducing admixture on creep of recycled aggregate concrete}} , author={{ ZHHe } and { HBHu } and { ICasanova } and { CFLiang } and { SGDu }} , journal={{Constr. Build. Mater}} 254 119312 , year={2020} } @incollection{b32, , title={{Drying shrinkage model for recycled aggregate concrete accounting for the influence of parent concrete}} , author={{ QWang } and { YGeng } and { YWang } and { HZhang }} , journal={{Eng. Struct}} 202 109888 , year={2020} } @book{b33, , title={{Eurocode 2: Design of concrete structures. Part 1-1: General rules and rules for buildings, CEN (European Committee for Standardization}} , author={{ Ec-2 }} , year={2010} } @incollection{b34, , title={{Compressive behavior and stress-strain relationships of confined and unconfined UHPC}} , author={{ NNaeimi } and { MAMoustafa }} , journal={{Constr. Build. Mater}} 272 121844 , year={2021} } @incollection{b35, , title={{Influence of amount of recycled coarse aggregates and production process on properties of recycled aggregate concrete}} , author={{ MEtxeberria } and { EVázquez } and { AMarí } and { MBarra }} , journal={{Cem. Concr. Res}} 37 5 , year={2007} } @book{b36, , title={{Los Angeles index and water absorption capacity of crushed aggregates, Pollack Period}} , author={{ MAbed } and { RNemes }} , year={2020} 15 } @incollection{b37, , title={{Effect of quality of recycled aggregates on bond strength between concrete and embedded steel reinforcement}} , author={{ JJAssaad } and { PMatar } and { AGergess }} , journal={{J. Sustain. Cem. Based Mater}} 9 2 , year={2020} } @incollection{b38, , title={{Influence of parent concrete properties on compressive strength and chloride diffusion coefficient of concrete with strengthened recycled aggregates}} , author={{ JYing } and { ZHan } and { LShen } and { WLi }} , journal={{Materials}} 13 20 4631 , year={2020} } @incollection{b39, , title={{Petrographic investigation on recycled coarse aggregate and identification the reason behind the inferior performance}} , author={{ AMistri } and { SKBhattacharyya } and { NDhami } and { AMukherjee } and { SVBarai }} , journal={{Constr. Build. Mater}} 221 , year={2019} } @incollection{b40, , title={{Investigation on properties of coarse reclaimed aggregates and their effects on concrete strength and workability}} , author={{ BTLy } and { HFar }} , journal={{Struct. Concr}} 20 5 , year={2019} } @incollection{b41, , title={{Adverse effect of the mass substitution of natural aggregates by air-dried recycled concrete aggregates on the self-compacting ability of concrete: Evidence and analysis through an example}} , author={{ OKebaïli } and { MMouret } and { NArabia } and { FCassagnabere }} , journal={{J. Clean. Prod}} 87 1 , year={2015} } @incollection{b42, , title={{The study of properties and behavior of self compacting concrete containing Electric Arc Furnace Slag (EAFS) as aggregate}} , author={{ ASantamaría } and { VOrtega-López } and { MSkaf } and { JAChica } and { JMManso }} , journal={{Ain Shams Eng. J}} 11 1 , year={2020} } @incollection{b43, , title={{Self-compacting recycled concrete: Relationships between empirical and rheological parameters and proposal of a workability box}} , author={{ IGonzález-Taboada } and { BGonzález-Fonteboa } and { FMartínez-Abella } and { DCarro-López }} , journal={{Constr. Build. Mater}} 143 , year={2017} } @incollection{b44, , title={{Analysis of rheological behaviour of self-compacting concrete made with recycled aggregates}} , author={{ IGonzález-Taboada } and { BGonzález-Fonteboa } and { FMartínez-Abella } and { SSeara-Paz }} , journal={{Constr. Build. Mater}} 157 , year={2017} } @incollection{b45, , title={{The design of selfcompacting structural mortar containing steelmaking slags as aggregate}} , author={{ ASantamaría } and { JJGonzález } and { MMLosáñez } and { MSkaf } and { VOrtega-López }} , journal={{Cem. Concr. Compos}} 111 103627 , year={2020} } @incollection{b46, , title={{Tools for the study of self-compacting recycled concrete fresh behaviour: Workability and rheology}} , author={{ IGonzález-Taboada } and { BGonzález-Fonteboa } and { JEiras-López } and { GRojo-López }} , journal={{J. Clean. Prod}} 156 , year={2017} } @incollection{b47, , title={{Self-compacting concrete incorporating electric arc-furnace steelmaking slag as aggregate}} , author={{ ASantamaría } and { AOrbe } and { MMLosañez } and { MSkaf } and { VOrtega-Lopez } and { JJGonzález }} , journal={{Mater. Des}} 115 , year={2017} } @incollection{b48, , title={{Properties of self-compacting concrete prepared with coarse and fine recycled concrete aggregates}} , author={{ SCKou } and { CSPoon }} , journal={{Cem. Concr. Compos}} 31 9 , year={2009} } @incollection{b49, , title={{The effect of the quality of construction and demolition waste on recycled aggregates concrete properties, Indian Concr}} , author={{ MBravo } and { JBrito } and { LEvangelista }} , journal={{J}} 93 9 , year={2019} } @incollection{b50, , title={{Effect of surface treatment methods on the properties of selfcompacting concrete with recycled aggregates}} , author={{ EGüneyisi } and { MGeso?lu } and { ZAlgin } and { HYazici }} , journal={{Constr. Build. Mater}} 64 , year={2014} } @incollection{b51, , title={{Methodology for the mix design of self-compacting concrete using different mineral additions in binary blends of powders}} , author={{ MC SNepomuceno } and { LAPereira-De-Oliveira } and { SM RLopes }} , journal={{Constr. Build. Mater}} 64 , year={2014} } @incollection{b52, , title={{Investigations on Fresh and Hardened Properties of Recycled Aggregate Self Compacting Concrete}} , author={{ PRevathi } and { RSSelvi } and { SSVelin }} , journal={{J. Inst. Eng. Ser. A}} 94 3 , year={2013} } @incollection{b53, , title={{Experimental study and prediction model for autogenous shrinkage of recycled aggregate concrete with recycled coarse aggregate}} , author={{ QWang } and { YYWang } and { YGeng } and { HZhang }} , journal={{Constr. Build. Mater}} 268 121197 , year={2021} } @incollection{b54, , title={{Internal curing of recycled aggregates concrete}} , author={{ MEl-Hawary } and { AAl-Sulily }} , journal={{J. Clean. Prod}} 275 122911 , year={2020} } @incollection{b55, , title={{Influence of recycled aggregates on rheological and mechanical properties of selfcompacting concrete}} , author={{ RSCampos } and { MPBarbosa } and { LLPimentel } and { GFMaciel }} , journal={{Rev. Mater}} 23 1 11964 , year={2018} } @incollection{b56, , title={{Experimental studies on utilization of coarse and finer fractions of recycled concrete aggregates in self compacting concrete mixes}} , author={{ BMKumar } and { HAnanthan } and { KV ABalaji }} , journal={{J. Build. Eng}} 9 , year={2017} } @incollection{b57, , title={{Selfcompacting concrete with recycled concrete aggregate: Study of the long-term properties}} , author={{ SManzi } and { CMazzotti } and { MCBignozzi }} , journal={{Constr. Build. Mater}} 157 , year={2017} } @incollection{b58, , title={{Properties of self compacting concrete using recycled coarse aggregate}} , author={{ KCPanda } and { PKBal }} , journal={{Procedia Eng}} 51 , year={2013} } @incollection{b59, , title={{An eco-friendly self-compacting concrete with recycled coarse aggregates}} , author={{ LAPereira-De Oliveira } and { MNepomuceno } and { MRangel }} , journal={{Inf. Constr}} 65 1 , year={2013} }