Sustainable Application of Blast Furnace Slag in the Field of 3D Printing: Material Configuration and Machine Optimization

Sustainable Application of Blast Furnace Slag in the Field of 3D Printing: Material Configuration and Machine Optimization

Blast furnace slag is an industrial waste. Its disposition is generally by means of landfilling or stacking, which goes against the concept of sustainable development. In order to maximize its reuse and abate its adverse effects on the natural environment, this study innovated a solution of using bl...

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Veröffentlicht in:Sustainability 2024-05, Vol.16 (10), p.4058
Hauptverfasser: Li, Dongsheng, Cui, Xinyun, Jang, Jung-sik, Wang, Guoxian
Format: Artikel
Sprache:eng
Schlagworte:
3-D printers
3D printing
Aluminum
Building materials industry
Cement
Chemical elements
Chemical reactions
Environmental protection
Gypsum
Highway construction
Industrial wastes
Laser sintering
Metallurgy
Physical properties
Raw materials
Solidification
Technology
Toxicity
Viscosity
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container_title Sustainability
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creator Li, Dongsheng
Cui, Xinyun
Jang, Jung-sik
Wang, Guoxian
description Blast furnace slag is an industrial waste. Its disposition is generally by means of landfilling or stacking, which goes against the concept of sustainable development. In order to maximize its reuse and abate its adverse effects on the natural environment, this study innovated a solution of using blast furnace slag to produce 3D printing materials. Blast furnace slag was mixed with desulfurization gypsum to adapt to the operation of 3D printers. The mixture has fluidity, viscosity, and hydraulicity. Fluidity allows the mixture to smoothly pass through the transportation pipeline and nozzle of the machine; viscosity ensures that the extruded mixture is gradually stacked and settled; hydraulicity guarantees that the mixture solidifies and forms completely solid objects after dehydration and drying. Fully suitable 3D printers are rare in the market. Therefore, the printing nozzle and reserve device of the 3D printer were designed and improved in this study according to the material characteristics, enhancing the smoothness of the mixture during 3D printing. The sustainable application of blast furnace slag in the field of 3D printing not only favors diminishing environmental pollution and resource consumption but also provides a further sustainable production method for human beings.
doi_str_mv 10.3390/su16104058
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source MDPI - Multidisciplinary Digital Publishing Institute; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects 3-D printers
3D printing
Aluminum
Building materials industry
Cement
Chemical elements
Chemical reactions
Environmental protection
Gypsum
Highway construction
Industrial wastes
Laser sintering
Metallurgy
Physical properties
Raw materials
Solidification
Technology
Toxicity
Viscosity
title Sustainable Application of Blast Furnace Slag in the Field of 3D Printing: Material Configuration and Machine Optimization
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