A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes

Silicon nitride (Si(3)N(4)) and silicon powder (Si) are two kinds of harmful solid waste in industrial production. As an environmental and low-consumption method, the cold-bonding technique is a novel method to utilize the problem of powder resource cycling. In this experiment, mechanical and high-t...

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Detalles Bibliográficos
Autores principales: Xiong, Yuandong, Li, Ying, Chen, Huiting, Qiu, Dejin, Wei, Shiyu, Saxén, Henrik, Yu, Yaowei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9410509/
https://www.ncbi.nlm.nih.gov/pubmed/36013631
http://dx.doi.org/10.3390/ma15165496
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author Xiong, Yuandong
Li, Ying
Chen, Huiting
Qiu, Dejin
Wei, Shiyu
Saxén, Henrik
Yu, Yaowei
author_facet Xiong, Yuandong
Li, Ying
Chen, Huiting
Qiu, Dejin
Wei, Shiyu
Saxén, Henrik
Yu, Yaowei
author_sort Xiong, Yuandong
collection PubMed
description Silicon nitride (Si(3)N(4)) and silicon powder (Si) are two kinds of harmful solid waste in industrial production. As an environmental and low-consumption method, the cold-bonding technique is a novel method to utilize the problem of powder resource cycling. In this experiment, mechanical and high-temperature properties of Si and Si(3)N(4) briquettes were studied after cold bonding. The results are as follows: (1) The compressive strength of the Si and Si(3)N(4) briquettes increased with the improvement of molding pressure. With the same binder (1 wt.%) and water (10 wt.%) addition, the compressive strength of the Si(3)N(4) briquette arrived at 12,023.53 N under 40 Mpa molding pressure, which is much higher than that of the Si briquette (942.40 N). The Si particles are uneven and irregular, which leads to an intense arch bridge effect in the Si briquette and the compressive strength decrease. Compared with Si powder, the particle size and shape of Si(3)N(4) is small, uniform, and regular. The influence of the arch bridge effect is smaller than that in the Si briquette. (2) After being treated at 1473 K for 1 h, the compressive strength of the Si briquette increased to 5049.83 N, and the compressive strength of the Si(3)N(4) briquette had a slight change. The surface of the briquettes was contacted with oxygen and reacted to form an outer shell which mainly contains SiO(2) in the high-temperature treatment. FT-IR results have shown there were no extra impurities in cold-bonded briquettes when using the organic binder. (3) The microstructure of the cross section of the Si and Si(3)N(4) briquettes after high-temperature treatment presented that oxygen entered the briquette through the pores and continued to react with the Si and Si(3)N(4). The outer shell of the Si briquette grew and thickened continuously with the oxygen spreading in the Si briquette. However, because of the smaller particle size and regular shape, little oxygen diffused in the Si(3)N(4) briquette. The outer shell of the Si(3)N(4) briquette is fairly thin, so the compressive strength did not change too much.
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spelling pubmed-94105092022-08-26 A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes Xiong, Yuandong Li, Ying Chen, Huiting Qiu, Dejin Wei, Shiyu Saxén, Henrik Yu, Yaowei Materials (Basel) Article Silicon nitride (Si(3)N(4)) and silicon powder (Si) are two kinds of harmful solid waste in industrial production. As an environmental and low-consumption method, the cold-bonding technique is a novel method to utilize the problem of powder resource cycling. In this experiment, mechanical and high-temperature properties of Si and Si(3)N(4) briquettes were studied after cold bonding. The results are as follows: (1) The compressive strength of the Si and Si(3)N(4) briquettes increased with the improvement of molding pressure. With the same binder (1 wt.%) and water (10 wt.%) addition, the compressive strength of the Si(3)N(4) briquette arrived at 12,023.53 N under 40 Mpa molding pressure, which is much higher than that of the Si briquette (942.40 N). The Si particles are uneven and irregular, which leads to an intense arch bridge effect in the Si briquette and the compressive strength decrease. Compared with Si powder, the particle size and shape of Si(3)N(4) is small, uniform, and regular. The influence of the arch bridge effect is smaller than that in the Si briquette. (2) After being treated at 1473 K for 1 h, the compressive strength of the Si briquette increased to 5049.83 N, and the compressive strength of the Si(3)N(4) briquette had a slight change. The surface of the briquettes was contacted with oxygen and reacted to form an outer shell which mainly contains SiO(2) in the high-temperature treatment. FT-IR results have shown there were no extra impurities in cold-bonded briquettes when using the organic binder. (3) The microstructure of the cross section of the Si and Si(3)N(4) briquettes after high-temperature treatment presented that oxygen entered the briquette through the pores and continued to react with the Si and Si(3)N(4). The outer shell of the Si briquette grew and thickened continuously with the oxygen spreading in the Si briquette. However, because of the smaller particle size and regular shape, little oxygen diffused in the Si(3)N(4) briquette. The outer shell of the Si(3)N(4) briquette is fairly thin, so the compressive strength did not change too much. MDPI 2022-08-10 /pmc/articles/PMC9410509/ /pubmed/36013631 http://dx.doi.org/10.3390/ma15165496 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/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/).
spellingShingle Article
Xiong, Yuandong
Li, Ying
Chen, Huiting
Qiu, Dejin
Wei, Shiyu
Saxén, Henrik
Yu, Yaowei
A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title_full A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title_fullStr A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title_full_unstemmed A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title_short A Novel Method of Si and Si(3)N(4) Powder Resources Recycling: Cold Bonding Briquettes
title_sort novel method of si and si(3)n(4) powder resources recycling: cold bonding briquettes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9410509/
https://www.ncbi.nlm.nih.gov/pubmed/36013631
http://dx.doi.org/10.3390/ma15165496
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