Abstract

This paper presents the design, development and realization of a fast and novel process for the synthesis of 3C silicon carbide (β-SiC) nanorods and submicron powder. Using SiO2 (or Si) and activated carbon (AC), this process allows β-SiC to be synthesized with almost 100% purity in timeframes of seconds or minutes using multimode microwave rotary tube reactors under open-air conditions. The synthesis temperature used was 1460 ± 50 °C for Si + AC and 1660 ± 50 °C for SiO2 + AC. The shortest β-SiC synthesis time achieved was about 20 s for Si + AC and 100 s for SiO2 + AC. This novel synthesis method allows for scaled-up flow processes in the rapid industrial-scale production of β-SiC, having advantages of time/energy saving and carbon dioxide emission reduction over comparable modern processes.

Highlights

  • In the material manufacturing sector, energy efficiency, sustainability and economic viability have become increasing important to the industry and society [1]

  • The prototype rectangular multimode microwave cavity (RMMC) rotary reactor used in this research was modified from a microwave oven with an alundum/quartz tube which was installed in the centre of the microwave oven, such that the tube could be rotated by a motor drive

  • Β-silicon carbide (SiC) powder was successfully synthesized in minutes using the RMMC rotary reactor and in seconds using the newly developed cylindrical multimode microwave cavity (CMMC) rotary reactor

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Summary

Introduction

In the material manufacturing sector, energy efficiency, sustainability and economic viability have become increasing important to the industry and society [1]. For the microwave device design and manufacturing, a rectangular multimode microwave cavity (RMMC) rotary reactor (e.g., a domestic microwave oven with improvements) was used for preliminary research and exploration Using this platform, β-SiC synthesis was improved in line with industrial application requirements. An improved cylindrical multimode microwave cavity (CMMC) rotary reactor was designed and fabricated This CMMC reactor had a higher microwave power rating than the RMMC reactor, facilitating greater time/energy savings. This “tunnel style” reactor allows production efficiency to be greatly improved, and enables the design of scaled-up flow processes using this device. “Tunnel style” microwave reactors can be used individually or in series as required, with the internal SiC production materials being laid out on a removable refractory material and the production materials moving though the production process

Materials and Devices
Characterisation
Results and Discussion
SEM micrographs of Aof
Conclusions

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