▎ 摘　　要

Graphene and carbon nanotube (CNT) have been the striking reinforcements for ceramics as a function of their unique structures together with exceptional multi-performance. However, the reinforcing efficiency could only be fully confirmed if they were homogenously dispersed throughout the whole ceramic matrix. The poor dispersion properties of graphene and CNT restricted the further development of advanced carbon nanomaterials reinforced ceramic. Very recently, the hybridization of graphene and CNT was proposed to reach full utilization of graphene and CNT through preventing the aggregations in ceramic. Herein, this review discussed the preparation techniques, composition, microstructures and properties of hybrid graphene-CNT (HGC) reinforced ceramic, highlighting the hybridization strategies of graphene and CNT. Additionally, the computer simulation was employed to advance the development of three-dimensional HGC reinforced ceramics.