Strength, microstructure and nanomechanical properties of recycled aggregate concrete containing waste glass powder and steel slag powder

The reuse of construction and demolition wastes for producing recycled aggregate concrete (RAC) is an effective way to improve building materials sustainability and reduce the environment burden. In this study, the synergistic effect of steel slag powder (SSP) and waste glass powder (GP) on the comp...

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Published inJournal of cleaner production Vol. 341; p. 130892
Main Authors Zhan, Pei-min, Zhang, Xiao-xiang, He, Zhi-hai, Shi, Jin-yan, Gencel, Osman, Hai Yen, Nguyen Thi, Wang, Guo-cai
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 20.03.2022
Subjects
compression strength
concrete
glass
Glass powder
Microstructure
modulus of elasticity
Nanomechanical properties
porosity
Recycled aggregate concrete
slags
steel
Steel slag powder
synergism
Recycled aggregate concrete
Steel slag powder
Microstructure
Nanomechanical properties
Glass powder
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Abstract The reuse of construction and demolition wastes for producing recycled aggregate concrete (RAC) is an effective way to improve building materials sustainability and reduce the environment burden. In this study, the synergistic effect of steel slag powder (SSP) and waste glass powder (GP) on the compressive strength, microstructure and nanoscale characteristics of RAC are investigated. The results indicate that SSP and GP have a significant synergistic effect in improving the performance of RACs. RAC with 10% GP and 20% SSP has the highest compressive strength, and its 28-day and 120-day compressive strengths have increased by 28.3% and 22.8% respectively relative to plain concrete. Meanwhile, the RAC with SSP and GP has a lower porosity and a high-volume fraction of high-density C–S–H, which are beneficial to improving the internal microstructure of the RAC. In addition, the incorporation of SSP and GP not only improves the microstructure of the matrix, but also reduces the width of the interface transition zone (ITZ) between the recycled aggregate and the new matrix. When 10% GP and 20% SSP are incorporated, the width of the new ITZ of RAC is reduced by 36.36%, and the average elastic modulus is increased by 64.6% compared to plain concrete. This research not only improves the performance of RAC, but also provides an effective way for the comprehensive utilization of the multiple solid wastes in concrete material. [Display omitted]
AbstractList The reuse of construction and demolition wastes for producing recycled aggregate concrete (RAC) is an effective way to improve building materials sustainability and reduce the environment burden. In this study, the synergistic effect of steel slag powder (SSP) and waste glass powder (GP) on the compressive strength, microstructure and nanoscale characteristics of RAC are investigated. The results indicate that SSP and GP have a significant synergistic effect in improving the performance of RACs. RAC with 10% GP and 20% SSP has the highest compressive strength, and its 28-day and 120-day compressive strengths have increased by 28.3% and 22.8% respectively relative to plain concrete. Meanwhile, the RAC with SSP and GP has a lower porosity and a high-volume fraction of high-density C–S–H, which are beneficial to improving the internal microstructure of the RAC. In addition, the incorporation of SSP and GP not only improves the microstructure of the matrix, but also reduces the width of the interface transition zone (ITZ) between the recycled aggregate and the new matrix. When 10% GP and 20% SSP are incorporated, the width of the new ITZ of RAC is reduced by 36.36%, and the average elastic modulus is increased by 64.6% compared to plain concrete. This research not only improves the performance of RAC, but also provides an effective way for the comprehensive utilization of the multiple solid wastes in concrete material.
The reuse of construction and demolition wastes for producing recycled aggregate concrete (RAC) is an effective way to improve building materials sustainability and reduce the environment burden. In this study, the synergistic effect of steel slag powder (SSP) and waste glass powder (GP) on the compressive strength, microstructure and nanoscale characteristics of RAC are investigated. The results indicate that SSP and GP have a significant synergistic effect in improving the performance of RACs. RAC with 10% GP and 20% SSP has the highest compressive strength, and its 28-day and 120-day compressive strengths have increased by 28.3% and 22.8% respectively relative to plain concrete. Meanwhile, the RAC with SSP and GP has a lower porosity and a high-volume fraction of high-density C–S–H, which are beneficial to improving the internal microstructure of the RAC. In addition, the incorporation of SSP and GP not only improves the microstructure of the matrix, but also reduces the width of the interface transition zone (ITZ) between the recycled aggregate and the new matrix. When 10% GP and 20% SSP are incorporated, the width of the new ITZ of RAC is reduced by 36.36%, and the average elastic modulus is increased by 64.6% compared to plain concrete. This research not only improves the performance of RAC, but also provides an effective way for the comprehensive utilization of the multiple solid wastes in concrete material. [Display omitted]
ArticleNumber 130892
Author He, Zhi-hai
Zhang, Xiao-xiang
Shi, Jin-yan
Gencel, Osman
Hai Yen, Nguyen Thi
Wang, Guo-cai
Zhan, Pei-min
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  surname: Zhan
  fullname: Zhan, Pei-min
  organization: College of Civil Engineering, Shaoxing University, Shaoxing, 312000, China
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  givenname: Xiao-xiang
  surname: Zhang
  fullname: Zhang, Xiao-xiang
  organization: College of Civil Engineering, Shaoxing University, Shaoxing, 312000, China
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  givenname: Zhi-hai
  surname: He
  fullname: He, Zhi-hai
  email: zhihaihe1981@126.com
  organization: College of Civil Engineering, Shaoxing University, Shaoxing, 312000, China
– sequence: 4
  givenname: Jin-yan
  orcidid: 0000-0002-6641-2097
  surname: Shi
  fullname: Shi, Jin-yan
  email: jinyan.shi@csu.edu.cn
  organization: School of Civil Engineering, Central South University, Changsha, 410075, China
– sequence: 5
  givenname: Osman
  surname: Gencel
  fullname: Gencel, Osman
  organization: Civil Engineering Department, Bartin University, 74100, Bartin, Turkey
– sequence: 6
  givenname: Nguyen Thi
  surname: Hai Yen
  fullname: Hai Yen, Nguyen Thi
  organization: Department of Civil Engineering, Industrial University of Ho Chi Minh City, 12 Nguyen Van Bao, Ward 4, Go Vap Dist., Ho Chi Minh, 700000, Viet Nam
– sequence: 7
  givenname: Guo-cai
  surname: Wang
  fullname: Wang, Guo-cai
  organization: Shao Xing Test Institute of Quality and Technical Supervision, Shaoxing, 312000, China
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Steel slag powder
Microstructure
Nanomechanical properties
Glass powder
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Snippet The reuse of construction and demolition wastes for producing recycled aggregate concrete (RAC) is an effective way to improve building materials...
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SubjectTerms compression strength
concrete
glass
Glass powder
Microstructure
modulus of elasticity
Nanomechanical properties
porosity
Recycled aggregate concrete
slags
steel
Steel slag powder
synergism
Title Strength, microstructure and nanomechanical properties of recycled aggregate concrete containing waste glass powder and steel slag powder
URI https://dx.doi.org/10.1016/j.jclepro.2022.130892
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Volume 341
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