Microwave sintering of ZrB۲-based ceramics: A review

Recently, microwave sintering has absorbed remarkable attention on the basis of enhanced microstructural/mechanical characteristics in comparison with conventional sintering techniques based on powder technology. This method not only can be employed for the processing of metals, alloys, and metal matrix composites but also for the manufacturing of advanced ceramics and ceramic matrix composites. Zirconium diboride (ZrB۲) as an interesting member of ultrahigh temperature ceramics is one of the most undertaking candidates in modern structural ceramics applications. This paper reviews the processing-densification-mechanical properties correlations in microwave-sintered ZrB۲-based ceramics and composites. The text concentrates on the microwave-assisted production of ZrB۲ divided into two categories: synthesis of ZrB۲ powders by microwave sintering and sintering of ZrB۲-based ceramics and composites by microwave sintering. The effects of some additives and reinforcements, such as B۴C, SiC, TiC, and MgO, on zirconium diboride's densification and mechanical properties are summarized.Recently, microwave sintering has absorbed remarkable attention on the basis of enhanced microstructural/mechanical characteristics in comparison with conventional sintering techniques based on powder technology. This method not only can be employed for the processing of metals, alloys, and metal matrix composites but also for the manufacturing of advanced ceramics and ceramic matrix composites. Zirconium diboride (ZrB۲) as an interesting member of ultrahigh temperature ceramics is one of the most undertaking candidates in modern structural ceramics applications. This paper reviews the processing-densification-mechanical properties correlations in microwave-sintered ZrB۲-based ceramics and composites. The text concentrates on the microwave-assisted production of ZrB۲ divided into two categories: synthesis of ZrB۲ powders by microwave sintering and sintering of ZrB۲-based ceramics and composites by microwave sintering. The effects of some additives and reinforcements, such as B۴C, SiC, TiC, and MgO, on zirconium diboride's densification and mechanical properties are summarized.