Recycling B 4 C grinding waste to fabricate high-performance ceramics by modification treatments and hot pressing

B C grinding waste, originated from the fine grinding process of sapphire wafers, is discarded without reutilization, which causes environmental pollution and resource waste. This work proposes new methods on recycling B C grinding waste to fabricate high-performance ceramics by first modification t...

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Bibliographic Details
Published in:Journal of environmental management 2024-11, Vol.371, p.123230
Main Authors: Wang, Shuai, Xie, Hongyu, Wei, Haojie, Xing, Pengfei, Zhuang, Yanxin
Format: Article
Language:English
Online Access:Get full text
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Summary:B C grinding waste, originated from the fine grinding process of sapphire wafers, is discarded without reutilization, which causes environmental pollution and resource waste. This work proposes new methods on recycling B C grinding waste to fabricate high-performance ceramics by first modification treatments via ball-milling mixing or microwave digestion with sulfuric acid and then hot pressing. The characteristic of B C grinding waste is studied and Al O is the main impurity. The direct hot pressing of B C grinding waste is performed and the obtained ceramic is fragile. The large-size and unevenly distributed Al O is verified to cause the fracture according to the structure analysis. Ball-milling mixing can break the Al O agglomerate and make Al O distribute evenly, and microwave digestion with sulfuric acid can remove most Al O . The ceramics fabricated via hot pressing with B C grinding waste treated with ball-milling mixing or microwave digestion show good microstructure and mechanical property. The relative density, hardness, flexural strength and fracture toughness of the ceramics fabricated with grinding waste treated with ball-milling mixing are 98.82%, 32.42 GPa, 439.44 MPa, 4.82 MPam , respectively, higher than those of the ceramics fabricated with grinding waste treated with microwave digestion, which are 98.69%, 29.54 GPa, 368.18 MPa, 4.20 MPam , respectively. This work not only realizes the secondary utilization of waste and avoids pollution, but also provides another way supplying the high-cost B C powder and ceramic, which has high economic benefits.
ISSN:1095-8630