Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II)
Concrete is the most frequently employed man-made material in modern building construction. Nevertheless, the serviceability of concrete structures has been significantly reduced owing to a variety of durability issues, especially when serving in a non-ideal environment and exposed to internal/exter...
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Format: | Article |
Language: | English |
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De Gruyter
2023-07-01
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Series: | Science and Engineering of Composite Materials |
Subjects: | |
Online Access: | https://doi.org/10.1515/secm-2022-0211 |
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author | Ahmad Jawad Althoey Fadi Abuhussain Mohammed Awad Deifalla Ahmed Farouk Özkılıç Yasin Onuralp Rahmawati Cut |
author_facet | Ahmad Jawad Althoey Fadi Abuhussain Mohammed Awad Deifalla Ahmed Farouk Özkılıç Yasin Onuralp Rahmawati Cut |
author_sort | Ahmad Jawad |
collection | DOAJ |
description | Concrete is the most frequently employed man-made material in modern building construction. Nevertheless, the serviceability of concrete structures has been significantly reduced owing to a variety of durability issues, especially when serving in a non-ideal environment and exposed to internal/external attacks such as chloride penetration, carbonation, sulfate, and so on. Several scholars have performed numerous studies on the strength and microstructure features of volcanic ash (VA) concrete and have discovered encouraging findings. However, since the information is spread, readers find it difficult to evaluate the benefits of VA-based concrete, limiting its applicability. As a result, a detailed study is required that offers the reader an easy approach and highlights all essential facts. The goal of this article (Part Ц) is to conduct a compressive review of the physical and chemical aspects of VA and its impact on concrete durability and microstructure properties. The findings demonstrate that VA considerably improves concrete durability owing to pozzolanic reaction and micro-filling voids in concrete materials. Cost–benefit analysis shows that 10% utilization of VA as cement decreased the overall cost by 30%. The assessment also notes a research gap that must be filled before VA may be utilized in practice. |
first_indexed | 2024-03-12T20:50:15Z |
format | Article |
id | doaj.art-8a7a9437dfde443a883627e63e0c6eae |
institution | Directory Open Access Journal |
issn | 2191-0359 |
language | English |
last_indexed | 2024-03-12T20:50:15Z |
publishDate | 2023-07-01 |
publisher | De Gruyter |
record_format | Article |
series | Science and Engineering of Composite Materials |
spelling | doaj.art-8a7a9437dfde443a883627e63e0c6eae2023-08-01T05:15:59ZengDe GruyterScience and Engineering of Composite Materials2191-03592023-07-013010755051210.1515/secm-2022-0211Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II)Ahmad Jawad0Althoey Fadi1Abuhussain Mohammed Awad2Deifalla Ahmed Farouk3Özkılıç Yasin Onuralp4Rahmawati Cut5Department of Civil Engineering, Swedish College of Engineering (SCET), Taxila, 47040, PakistanDepartment of Civil Engineering, College of Engineering, Najran University, Najran, Saudia ArabiaArchitectural Engineering Department, College of Engineering, Najran University, Najran, Saudi ArabiaStructural Engineering Department, Future University in Egypt, New Cairo11845, EgyptDepartment of Civil Engineering, Necmettin Erbakan University, Konya42000, TurkeyDepartment of Civil Engineering, Universitas Abulyatama, Aceh Besar23372, IndonesiaConcrete is the most frequently employed man-made material in modern building construction. Nevertheless, the serviceability of concrete structures has been significantly reduced owing to a variety of durability issues, especially when serving in a non-ideal environment and exposed to internal/external attacks such as chloride penetration, carbonation, sulfate, and so on. Several scholars have performed numerous studies on the strength and microstructure features of volcanic ash (VA) concrete and have discovered encouraging findings. However, since the information is spread, readers find it difficult to evaluate the benefits of VA-based concrete, limiting its applicability. As a result, a detailed study is required that offers the reader an easy approach and highlights all essential facts. The goal of this article (Part Ц) is to conduct a compressive review of the physical and chemical aspects of VA and its impact on concrete durability and microstructure properties. The findings demonstrate that VA considerably improves concrete durability owing to pozzolanic reaction and micro-filling voids in concrete materials. Cost–benefit analysis shows that 10% utilization of VA as cement decreased the overall cost by 30%. The assessment also notes a research gap that must be filled before VA may be utilized in practice.https://doi.org/10.1515/secm-2022-0211volcanic ashconcretedurabilityheat of hydration scanning electronic microscopy |
spellingShingle | Ahmad Jawad Althoey Fadi Abuhussain Mohammed Awad Deifalla Ahmed Farouk Özkılıç Yasin Onuralp Rahmawati Cut Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) Science and Engineering of Composite Materials volcanic ash concrete durability heat of hydration scanning electronic microscopy |
title | Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) |
title_full | Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) |
title_fullStr | Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) |
title_full_unstemmed | Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) |
title_short | Durability and microstructure analysis of concrete made with volcanic ash: A review (Part II) |
title_sort | durability and microstructure analysis of concrete made with volcanic ash a review part ii |
topic | volcanic ash concrete durability heat of hydration scanning electronic microscopy |
url | https://doi.org/10.1515/secm-2022-0211 |
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