Reinforcement of Recycled Aggregate by Microbial-Induced Mineralization and Deposition of Calcium Carbonate—Influencing Factors, Mechanism and Effect of Reinforcement

Recycled aggregate is aggregate prepared from construction waste. With the development of a global economy and people’s attention to sustainable development, recycled aggregate has shown advantages in replacing natural aggregate in the production of concrete due to its environmental friendliness, lo...

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Published inCrystals (Basel) Vol. 11; no. 8; p. 887
Main Authors Feng, Chunhua, Cui, Buwen, Ge, Haidong, Huang, Yihong, Zhang, Wenyan, Zhu, Jianping
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.08.2021
Subjects
Aggregates
Bacteria
biomineralization
Building construction
Calcium carbonate
Cement
Concrete
Construction materials
Deposition
Energy consumption
Global economy
Mechanical properties
Metabolism
Microorganisms
Mineralization
Mortars (material)
recycled aggregate
recycled concrete
Recycling
Reinforcement
Respiration
Soil permeability
Strengthening
sustainability
Sustainable development
Water absorption
China
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Abstract Recycled aggregate is aggregate prepared from construction waste. With the development of a global economy and people’s attention to sustainable development, recycled aggregate has shown advantages in replacing natural aggregate in the production of concrete due to its environmental friendliness, low energy consumption, and low cost. Recycled aggregate exhibits high water absorption and a multi-interface transition zone, which limits its application scope. Researchers have used various methods to improve the properties of recycled aggregate, such as microbially induced calcium carbonate precipitation (MICP) technology. In this paper, the results of recent studies on the reinforcement of recycled aggregate by MICP technology are synthesized, and the factors affecting the strengthening effect of recycled aggregate are reviewed. Moreover, the strengthening mechanism, advantages and disadvantages of MICP technology are summarized. After the modified treatment, the aggregate performance is significantly improved. Regardless of whether the aggregate was used in mortar or concrete, the mechanical properties of the specimens were clearly improved. However, there are some issues regarding the application of MICP technology, such as the use of an expensive culture medium, a long modification cycle, and untargeted mineralization deposition. These difficulties need to be overcome in the future for the industrialization of regenerated aggregate materials via MICP technology.
AbstractList Recycled aggregate is aggregate prepared from construction waste. With the development of a global economy and people’s attention to sustainable development, recycled aggregate has shown advantages in replacing natural aggregate in the production of concrete due to its environmental friendliness, low energy consumption, and low cost. Recycled aggregate exhibits high water absorption and a multi-interface transition zone, which limits its application scope. Researchers have used various methods to improve the properties of recycled aggregate, such as microbially induced calcium carbonate precipitation (MICP) technology. In this paper, the results of recent studies on the reinforcement of recycled aggregate by MICP technology are synthesized, and the factors affecting the strengthening effect of recycled aggregate are reviewed. Moreover, the strengthening mechanism, advantages and disadvantages of MICP technology are summarized. After the modified treatment, the aggregate performance is significantly improved. Regardless of whether the aggregate was used in mortar or concrete, the mechanical properties of the specimens were clearly improved. However, there are some issues regarding the application of MICP technology, such as the use of an expensive culture medium, a long modification cycle, and untargeted mineralization deposition. These difficulties need to be overcome in the future for the industrialization of regenerated aggregate materials via MICP technology.
Author Zhang, Wenyan
Cui, Buwen
Feng, Chunhua
Zhu, Jianping
Huang, Yihong
Ge, Haidong
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  fullname: Zhu, Jianping
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Snippet Recycled aggregate is aggregate prepared from construction waste. With the development of a global economy and people’s attention to sustainable development,...
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Aggregation Database
Enrichment Source
Index Database
StartPage 887
SubjectTerms Aggregates
Bacteria
biomineralization
Building construction
Calcium carbonate
Cement
Concrete
Construction materials
Deposition
Energy consumption
Global economy
Mechanical properties
Metabolism
Microorganisms
Mineralization
Mortars (material)
recycled aggregate
recycled concrete
Recycling
Reinforcement
Respiration
Soil permeability
Strengthening
sustainability
Sustainable development
Water absorption
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Title Reinforcement of Recycled Aggregate by Microbial-Induced Mineralization and Deposition of Calcium Carbonate—Influencing Factors, Mechanism and Effect of Reinforcement
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