Production of Ultra-High-Performance Concrete with Low Energy Consumption and Carbon Footprint Using Supplementary Cementitious Materials Instead of Silica Fume: A Review

Hamad, Mays A.; Nasr, Mohammed Salah; Shubbar, Ali Abdulhussein; Al-Khafaji, Zainab S.; Masoodi, Zainab Al; Al-Hashimi, Osamah; Kot, Patryk; Alkhaddar, Rafid; Hashim, Khalid S.

doi:10.3390/en14248291

Cited by 28 publications

(14 citation statements)

References 99 publications

(130 reference statements)

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“…The fine aggregate's grading and the restrictions of Iraqi requirement No.45/1984 [39] are demonstrated in Figure 1. The fine aggregate's physical parameters were illustrated in Table (3). All the tests of fine aggregates are performed by the Environmental and the Constructional Materials Laboratory of Al Mustaqbal University College.…”

Section: Methodsmentioning

confidence: 99%

“…Concrete was the most prevalent and extensively utilized material, despite the fact that its compressive strength is substantially higher than its tensile strength. Steel fiber, PVA, charcoal, basalt, glass, and synthetic materials have been used to compensate for concrete's low tensile strengths [1]- [3]. Different sorts of study were conducted on improving mechanical characteristics in concrete utilizing various fibers [4]- [13].…”

Section: Introductionmentioning

confidence: 99%

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Evaluation the influence of steel-fiber on the concrete characteristics

Ali¹,

Falah²,

Hafedh³

et al. 2022

PEN

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The impact of steel fibers on the engineering characteristics of concretes were explored experimentally in this work. Steel fibers of 0.5, 0.7, and 0.9 percent by volume fraction were applied to concretes mixture with water/cements (W/C) proportions of 0.43 to accomplish this. There has been a total of 24 cubic specimens produced for compressive strengths testing, 24 cylindrical specimens for splitting tension strengths testing, and 12 cubic specimens for toughened unit weight testing. The experimental findings reveal that applying 0.5 percent to 0.9 percent of fibers made of steel to concrete boosts both compressive and tension strengths concurrently when compared to ordinary concretes; however, there is no discernible gain in hardened unit weight with increased fiber amounts.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Evaluation the influence of steel-fiber on the concrete characteristics

Ali¹,

Falah²,

Hafedh³

et al. 2022

PEN

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show abstract

“…Apart from concrete, incinerated ash has also been used as a substitute for sand and aggregates in asphalt mixtures. The addition of incinerated ash to asphalt mixtures can improve their stiffness, stability, and resistance to deformation [12]. The use of incinerated ash in asphalt mixtures can also reduce the need for virgin materials and disposal costs for the waste materials.…”

Section: Innovative Usage Of Incinerated Ashmentioning

confidence: 99%

Towards a sustainable future: Emerging trends in new cement for construction materials

El-Wafa¹

2023

World J. Adv. Eng. Technol. Sci.

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The research paper offers a detailed analysis of the current trends and developments in new cement production methods to promote sustainable construction materials. The study examines three key areas: Eco-cement, Steel slag concrete, and Municipal slag concrete. Eco-cement involves using waste materials and reducing energy consumption during cement production to conserve natural resources. Steel slag concrete uses steel slag as a binder, including steel slag mixed with fly ash, steel slag with a hydrated matrix, and steelmaking slag with a carbonated matrix. Municipal slag concrete uses ground granulated melt-solidified slag derived from municipal solid waste or sewage sludge as a binder. The research paper aims to focus on contemporary trends and advancements in new cement production for the sustainability of construction materials.

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“…Ordinary Portland cement (OPC) is a type of cement that is commonly utilized in concrete and mortar. It is made by heating limestone and clay at high temperatures and grinding the resulting material into a fine powder [1][2][3]. OPC is the most common type of cement utilized in various applications, including foundations, driveways, sidewalks, and walls.…”

Section: Introductionmentioning

confidence: 99%

Improvements of mechanical and physical features of cement mortar by nano Al2O3and CaCO3 as additives

Humad,

Dakhil,

Al-Mashhadi

et al. 2023

Res. Eng. Struct. Mat.

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The impact of Nanoparticles of (〖AL〗_2 O_3and 〖CaCO〗_3) particles on the features of cement mortar was explored in current research with a mean diameter of ~50nm, and 100nm in three various amounts of 1, 3, and 5% substitution by cement’s weight as binary blending materials with fixed water/cement proportion 0.46. Cement mortar's mechanical and physical features (compressive strength, density) were tested after 7 and 28 days. The findings illustrated that utilizing nanoparticles of 〖AL〗_2 O_3 improved the mortar compressive strength at early ages at 7 curing days better than 28 curing days, and 3% of substitution was the optimal proportion. Also, utilizing nano-〖CaCO〗_3 as a binary blending mixture with substitution proportion (1, 3, 5%) by cement's weight improved mortar compressive strength at early ages at 7 curing days better than 28 curing days. However, there were no apparent effects when nanoparticles of (〖AL〗_2 O_3 and 〖CaCO〗_3) were replaced on the density and ultrasonic pulse velocity of cement mortar at 7 and 28 days. The interaction impact of substitution 1 and 3 percent of nanoparticles of (〖AL〗_2 O_3 and 〖CaCO〗_3) particles to cement mortar increased the CS by (28 and 74%) at 7 curing days and (30 and 42%) at 28 curing days, respectively.

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Production of Ultra-High-Performance Concrete with Low Energy Consumption and Carbon Footprint Using Supplementary Cementitious Materials Instead of Silica Fume: A Review

Cited by 28 publications

References 99 publications

Evaluation the influence of steel-fiber on the concrete characteristics

Evaluation the influence of steel-fiber on the concrete characteristics

Towards a sustainable future: Emerging trends in new cement for construction materials

Improvements of mechanical and physical features of cement mortar by nano Al2O3and CaCO3 as additives

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