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Submit to this Journal Review for this Journal Propose a Special Issue ► ▼ Article Menu Article Menu Subscribe SciFeed Related Info Links PubMed/Medline Google Scholar More by Authors Links on DOAJ Xiao, Y. Yunusa, M. Jelagin, D. Tan, H. Strnadel, B. on Google Scholar Xiao, Y. Yunusa, M. Jelagin, D. Tan, H. Strnadel, B. on PubMed Xiao, Y. Yunusa, M. Jelagin, D. Tan, H. Strnadel, B. /ajax/scifeed/subscribe Article Views Citations - Table of Contents Altmetric share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up ... Endorse textsms ... Comment Need Help? Support

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Get Information clear JSmol Viewer clear first_page settings Order Article Reprints Font Type: Arial Georgia Verdana Font Size: Aa Aa Aa Line Spacing:    Column Width:    Background: Open AccessEditorial Special Issue on Silicate Solid Waste Recycling by

Yue Xiao

Yue Xiao Scilit Preprints.org Google Scholar View Publications 1,*,

Mujaheed Yunusa

Mujaheed Yunusa Scilit Preprints.org Google Scholar View Publications 1 ORCID

Denis Jelagin

Denis Jelagin Scilit Preprints.org Google Scholar View Publications 2,

Hongbo Tan

Hongbo Tan Scilit Preprints.org Google Scholar View Publications 1 ORCID

and

Bohumír Strnadel

Bohumír Strnadel Scilit Preprints.org Google Scholar View Publications 3 1 State Key Laboratory of Silicate Materials for Architectures, Wuhan University of Technology (WUT), Wuhan 430070, China 2 Division of Building Materials, KTH Royal Institute of Technology, SE-100 44 Stockholm, Sweden 3 Center of Advanced Innovation Technologies, VŠB-Technical University of Ostrava, 70833 Ostrava-Poruba, Czech Republic * Author to whom correspondence should be addressed. Materials 2021, 14(14), 3776; https://doi.org/10.3390/ma14143776 Received: 14 June 2021 / Revised: 22 June 2021 / Accepted: 24 June 2021 / Published: 6 July 2021 (This article belongs to the Special Issue Silicate Solid Waste Recycling) Download keyboard_arrow_down Download PDF Download PDF with Cover Download XML Download Epub Versions Notes The reuse of industrial silicate solid wastes, including fly ash, slag, and waste rubber, is one of the most significant environmental and economic concerns worldwide. At present, many researchers are focusing on this topic, and construction and building materials have been considered as the best way to reuse such an enormous amount of industry silicate solid wastes [1]. For instance, steel slag has been successfully used in pavement engineering [2,3,4], fly ash is widely reused as cementitious materials in concrete [5,6,7], and waste tire rubber can be reused to improve the rutting resistance of asphalt pavement [8,9,10]. Along with these developments, there are still many challenges that should be further discussed.This Special Issue, “Silicate Solid Waste Recycling”, aims to include the latest research findings on new materials and innovative technologies on solid waste recycling in construction and building materials. In total, it obtained 20 submissions, and 13 of them succeeded to the final publication, with valuable help from all the reviewers. Researchers from China, the United States, Russia, Czech Republic, and Malaysia chose to share their recent research findings via this particular issue.Steel slag, a by-product from the steel-making industry treated as a typical solid waste, was reused in pavement engineering as aggregate. Feng used steel slag for pavement micro-surfacing and characterized its surface profile by laser scanning [3]. They found that steel slag can improve the skid resistance of pavement micro-surfacing due to its advantages of excellent polish resistance. Carbide slag was reused as an accelerator in calcium sulfoaluminate cement by Tan and Smirnova [11]. Research indicated that the setting time of cement could be significantly shortened due to the introduction of carbide slag, which can be widely used in special projects where a fast setting is required. Blast furnace slag, a by-product from iron production in blast furnaces, was granulated and reused to enhance the corrosion resistance of steel bar used in cement concrete [6]. The corrosion resistance of the cement-ground granulated blast furnace slag system and cement-fly ash system was compared by adding NaCl in the paste. While in the research from Choo, the coal fly ash, which is a combustion waste produced by a coal-fired power plant, was recycled in the production of clay ceramics [5]. An environment-friendly preparation method of reaction-bonded silicon carbide ceramics was reported by Ye [12].Pavement engineering is one of the major application fields that can reuse massive amounts of industrial solid waste. This might be the reason that five papers out of thirteen focus on the recycling techniques in pavement engineering. Chang reported a bibliometric evaluation on the recent research activities on recycled construction materials in pavement engineering [13]. The research hotspots and development trends of pavement engineering were then forwarded by claiming that the rubber modified asphalt binder and reclaimed asphalt pavement (RAP) attracted the most attention. In this Special Issue, two papers focused on the crumb rubber modified asphalt binder [8,9] and another two papers focused on the performance enhancement of reclaimed asphalt pavement [14,15]. He reported the rheological properties of SBS/CRP (SBS, styrene-butadiene-styrene copolymer; CRP, crumb rubber powder) modified asphalt binder at different ageing levels [8]. Moreover, the ageing resistance of crumb rubber modified asphalt binder was discussed by Chen, by comparing microwave pre-treated crumb rubber with other traditional polymer modifiers [9]. Leng studied the effect of heating temperature on the compatibility of reclaimed asphalt mixture by employing a compaction energy ratio [14]. In comparison, Xiao tried to design a reclaimed asphalt mixture with extra high RAP content, close to 50% [15]. Basalt fiber was proposed to reinforce the performance of reclaimed asphalt mixture during their high rap recycling. The quality improvement method, including brick separation and surface treatment, on recycled aggregated from construction and demolition waste, was also included in this Special Issue [16]. Qiu shared their latest research on the asphalt–filler interaction analysis with the help of macro-rheological measurements [17]. Multiwall carbon nanotubes were used as a functional additive in the research from Smirnova to improve the electrical conductivity of cement matrices [18].This editorial just briefly summarized the included papers. Please refer to the relevant papers for detailed information. The development of silicate solid waste recycling technologies is highly dependent on related scientific research. Durability is one of the major concerns during the material design with recycled solid waste. Life-cycle properties prediction and extension technics are urgently needed. The successful ending of this Special Issue is a new start for further silicate solid waste recycling. We hope that this Special Issue will support researchers to carry on further study in this area. Author ContributionsOriginal draft preparation, Y.X. and M.Y.; Review and editing, D.J., H.T. and B.S. All authors have read and agreed to the published version of the manuscript.FundingThis Special Issue work was founded by the National Key R&D Program of China (No. 2019YFC1904900).AcknowledgmentsThe guest editors would like to thank all the authors for supporting this Special Issue with their well-organized research work. Without their contribution, this Special Issue would not reach to this successful completion. The help from all the reviewers is also highly appreciated. Special thanks to the editorial assistants of Materials who made this entire Special Issue successful.Conflicts of InterestThe authors declare no conflict of interest.ReferencesChang, X.; Zhang, R.; Xiao, Y.; Chen, X.; Zhang, X.; Liu, G. Mapping of publications on asphalt pavement and bitumen materials: A bibliometric review. Constr. Build. Mater. 2020, 234, 117370. [Google Scholar] [CrossRef]Chen, Z.; Wu, S.; Xiao, Y.; Zeng, W.; Yi, M.; Wan, J. Effect of hydration and silicone resin on Basic Oxygen Furnace slag and its asphalt mixture. J. Clean. Prod. 2016, 112 Pt 1, 392–400. [Google Scholar] [CrossRef]Wang, F.; Cui, P.; Zhang, X.; Yunusa, M.; Xiao, Y. Profile Features of Emulsified Asphalt Mixture Containing Steel Slag Based on Laser Scanning. Materials 2020, 13, 2679. [Google Scholar] [CrossRef] [PubMed]Cui, P.; Wu, S.; Xiao, Y.; Hu, R.; Yang, T. Environmental performance and functional analysis of chip seals with recycled basic oxygen furnace slag as aggregate. J. Hazard. Mater. 2021, 405, 124441. [Google Scholar] [CrossRef] [PubMed]Choo, T.F.; Mohd Salleh, M.A.; Kok, K.Y.; Matori, K.A.; Abdul Rashid, S. A Study on the Utilization of Coal Fly Ash Derived Grog in Clay Ceramics. Materials 2020, 13, 5218. [Google Scholar] [CrossRef] [PubMed]Liu, H.; Zhang, Y.; Liu, J.; Feng, Z.; Kong, S. Comparative Study on Chloride Binding Capacity of Cement-Fly Ash System and Cement-Ground Granulated Blast Furnace Slag System with Diethanol-Isopropanolamine. Materials 2020, 13, 4103. [Google Scholar] [CrossRef] [PubMed]Zhang, J.; Tan, H.; Bao, M.; Liu, X.; Luo, Z.; Wang, P. Low carbon cementitious materials: Sodium sulfate activated ultrafine slag/fly ash blends at ambient temperature. J. Clean. Prod. 2021, 280, 124363. [Google Scholar] [CrossRef]Wu, S.; He, R.; Chen, H.; Li, W.; Li, G. Rheological Properties of SBS/CRP Composite Modified Asphalt under Different Aging Treatments. Materials 2020, 13, 4921. [Google Scholar] [CrossRef] [PubMed]Zhang, B.; Chen, H.; Zhang, H.; Wu, Y.; Kuang, D.; Guo, F. Laboratory Investigation of Aging Resistance for Rubberized Bitumen Modified by Using Microwave Activation Crumb Rubber and Different Modifiers. Materials 2020, 13, 4230. [Google Scholar] [CrossRef] [PubMed]Ding, X.; Chen, L.; Ma, T.; Ma, H.; Gu, L.; Chen, T.; Ma, Y. Laboratory investigation of the recycled asphalt concrete with stable crumb rubber asphalt binder. Constr. Build. Mater. 2019, 203, 552–557. [Google Scholar] [CrossRef]Gu, X.; Tan, H.; He, X.; Smirnova, O.; Zhang, J.; Luo, Z. Utilization of Carbide Slag by Wet Grinding as an Accelerator in Calcium Sulfoaluminate Cement. Materials 2020, 13, 4526. [Google Scholar] [CrossRef] [PubMed]Rui, M.; Zhang, Y.; Ye, J. Environment-Friendly Preparation of Reaction-Bonded Silicon Carbide by Addition of Boron in the Silicon Melt. Materials 2021, 14, 1090. [Google Scholar] [CrossRef] [PubMed]Xiao, Y.; Dong, Q.; Chang, X.; Cui, P.; Liu, G. Research Hotspots and Development Trends on Recycled Construction Materials in Pavement Engineering: A Bibliometric Evaluation. Materials 2021, 14, 2170. [Google Scholar] [CrossRef] [PubMed]Ma, X.; Leng, Z.; Wang, L.; Zhou, P. Effect of Reclaimed Asphalt Pavement Heating Temperature on the Compactability of Recycled Hot Mix Asphalt. Materials 2020, 13, 3621. [Google Scholar] [CrossRef] [PubMed]Wu, Z.; Zhang, C.; Xiao, P.; Li, B.; Kang, A. Performance Characterization of Hot Mix Asphalt with High RAP Content and Basalt Fiber. Materials 2020, 13, 3145. [Google Scholar] [CrossRef] [PubMed]Hu, K.; Chen, Y.; Yu, C.; Xu, D.; Cao, S.; Pang, R. Upgrading the Quality of Recycled Aggregates from Construction and Demolition Waste by Using a Novel Brick Separation and Surface Treatment Method. Materials 2020, 13, 2893. [Google Scholar] [CrossRef] [PubMed]Xu, W.; Qiu, X.; Xiao, S.; Hong, H.; Wang, F.; Yuan, J. Characteristics and Mechanisms of Asphalt–Filler Interactions from a Multi-Scale Perspective. Materials 2020, 13, 2744. [Google Scholar] [CrossRef] [PubMed]Yakovlev, G.; Vít, Č.; Polyanskikh, I.; Gordina, A.; Pudov, I.; Gumenyuk, A.; Smirnova, O. The Effect of Complex Modification on the Impedance of Cement Matrices. Materials 2021, 14, 557. [Google Scholar] [CrossRef] [PubMed]Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). Share and Cite MDPI and ACS Style

Xiao, Y.; Yunusa, M.; Jelagin, D.; Tan, H.; Strnadel, B. Special Issue on Silicate Solid Waste Recycling. Materials 2021, 14, 3776. https://doi.org/10.3390/ma14143776

AMA Style

Xiao Y, Yunusa M, Jelagin D, Tan H, Strnadel B. Special Issue on Silicate Solid Waste Recycling. Materials. 2021; 14(14):3776. https://doi.org/10.3390/ma14143776

Chicago/Turabian Style

Xiao, Yue, Mujaheed Yunusa, Denis Jelagin, Hongbo Tan, and Bohumír Strnadel. 2021. "Special Issue on Silicate Solid Waste Recycling" Materials 14, no. 14: 3776. https://doi.org/10.3390/ma14143776

Find Other Styles Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here. Article Metrics No No Article Access Statistics For more information on the journal statistics, click here. Multiple requests from the same IP address are counted as one view. Zoom | Orient | As Lines | As Sticks | As Cartoon | As Surface | Previous Scene | Next Scene Cite Export citation file: BibTeX | EndNote | RIS MDPI and ACS Style

Xiao, Y.; Yunusa, M.; Jelagin, D.; Tan, H.; Strnadel, B. Special Issue on Silicate Solid Waste Recycling. Materials 2021, 14, 3776. https://doi.org/10.3390/ma14143776

AMA Style

Xiao Y, Yunusa M, Jelagin D, Tan H, Strnadel B. Special Issue on Silicate Solid Waste Recycling. Materials. 2021; 14(14):3776. https://doi.org/10.3390/ma14143776

Chicago/Turabian Style

Xiao, Yue, Mujaheed Yunusa, Denis Jelagin, Hongbo Tan, and Bohumír Strnadel. 2021. "Special Issue on Silicate Solid Waste Recycling" Materials 14, no. 14: 3776. https://doi.org/10.3390/ma14143776

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