2022
DOI: 10.1016/j.cscm.2022.e01265
|View full text |Cite
|
Sign up to set email alerts
|

Ultra-high-performance fiber-reinforced concrete. Part III: Fresh and hardened properties

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1

Citation Types

0
24
0

Year Published

2022
2022
2023
2023

Publication Types

Select...
5
3

Relationship

2
6

Authors

Journals

citations
Cited by 34 publications
(24 citation statements)
references
References 133 publications
0
24
0
Order By: Relevance
“…ˑSince ˑthe ˑrisk ˑof ˑcorrosion ˑof ˑsteel ˑfiber ˑcan ˑbe ˑevidently ˑincreased ˑnear ˑthe ˑvoids at the fiber and matrix interface [93]. Besides the corrosion ˑrisks, ˑthe ˑporosity ˑcould ˑincrease the occurrence of ˑaggressive ˑionic ˑattack, and rapid ˑpenetration ˑto ˑthe ˑconcrete ˑsuch ˑas chloride and sulphate ˑ [78] [ [94][95][96].…”
Section: Homogeneity and Porositymentioning
confidence: 99%
See 1 more Smart Citation
“…ˑSince ˑthe ˑrisk ˑof ˑcorrosion ˑof ˑsteel ˑfiber ˑcan ˑbe ˑevidently ˑincreased ˑnear ˑthe ˑvoids at the fiber and matrix interface [93]. Besides the corrosion ˑrisks, ˑthe ˑporosity ˑcould ˑincrease the occurrence of ˑaggressive ˑionic ˑattack, and rapid ˑpenetration ˑto ˑthe ˑconcrete ˑsuch ˑas chloride and sulphate ˑ [78] [ [94][95][96].…”
Section: Homogeneity and Porositymentioning
confidence: 99%
“…ˑmight ˑlead ˑto ˑconcrete ˑdensification. ˑPreviously, ˑthe ˑeffects ˑof ˑvarious ˑadditional ˑmaterials ˑon ˑthe ˑmechanical ˑperformance, ˑpermeability, ˑand ˑchloride ˑdiffusion ˑof ˑa ˑcementitious material with and without fiber reinforcement ˑwere ˑinvestigated[89][90][91][94][95][96]. ˑOne ˑof ˑthese ˑextra materials could be ˑdescribed ˑas ˑhaving ˑpozzolanic ˑproperties.…”
mentioning
confidence: 99%
“…ˑA ˑrise ˑin ˑthe ˑcuring ˑtemperature over 80 ºC, on the other hand, ˑhad ˑthe ˑopposite ˑimpact. ˑThe ˑhigh ˑcuring ˑtemperatures ˑ(between ˑ100 ˑand ˑ125 ˑºC) ˑresulted ˑin ˑa ˑlowering ˑof ˑthe ˑamount ˑof ˑalkaline ˑmedium ˑpresent, ˑwhich ˑprevented the dissolution ˑof ˑsilica ˑand ˑalumina ˑtypes [118][119][120]122].…”
Section: Mine Tailings As Precursors For Geopolymermentioning
confidence: 99%
“…ˑAccording to its findings, ˑthe ˑmaximum ˑcompressive ˑstrength ˑof ˑgold ˑmine ˑtailings-geopolymer ˑcomposites was discovered ˑat ˑa ˑpotassium ˑsilicate/potassium ˑhydroxide proportion ˑof ˑ1.1. ˑAccording ˑto ˑits ˑfindings, ˑraising ˑthe ˑcuring ˑtemperature ˑfrom ˑ65 ˑto ˑ100 ˑºC ˑenhanced ˑthe ˑcompressive ˑstrength ˑof ˑpotassium ˑaluminate ˑand ˑpotassium ˑhydroxide-activated ˑgold ˑmine tailings-geopolymer composites [122,133,134]. The researchers ˑalso ˑdiscovered ˑthat ˑthe ˑcompressive ˑstrength of geopolymer ˑactivated ˑby ˑpotassium ˑaluminate ˑand ˑpotassium hydroxide activators ˑis ˑgreater ˑthan ˑthat ˑof ˑgeopolymer ˑactivated ˑby ˑpotassium ˑsilicate ˑand ˑpotassium ˑhydroxide ˑactivators, ˑeven ˑwhen ˑthe ˑcuring ˑtemperature ˑis ˑraised ˑto up to 100 ºC.…”
Section: Mine Tailings As Precursors For Geopolymermentioning
confidence: 99%
“…UHPC is a high-strength, high-durability ˑcementitious ˑmaterial ˑ [1][2][3][4][5]. ˑIt ˑhas ˑthe ˑpotential ˑto ˑbe ˑa ˑviable ˑsolution ˑfor ˑimproving ˑthe ˑ"sustainability ˑof ˑbuildings ˑand ˑother ˑinfrastructure ˑcomponents ˑ [6][7][8][9][10][11][12].…”
Section: Introductionmentioning
confidence: 99%