Ultra-high hardness and enhanced toughness of lightweight high-purity B4C ceramics with impact-resistance via Ketjen Black additive

In the field of high-performance ceramic materials, boron carbide (B₄C) is regarded as an ideal choice for protective armor and military applications due to its exceptional hardness, wear resistance, and lowest density. Nevertheless, the difficulty in sintering B₄C, along with the trade-off between hardness and toughness, greatly limits its applications. To improve the performance of B₄C ceramics, this study utilizes Ketjen black (KB) with ultrahigh conductivity and specific surface area as an additive. The KB-derived conductive network enhances spark plasma sintering (SPS) efficiency while maintaining the ultrahigh hardness and lightweight nature of high-purity B₄C ceramics. Experimental results demonstrate that the resulting B₄C ceramics contain only a small amount of residual carbon, without forming any secondary phases. Notably, with the addition of 4 wt% KB, the ceramic density remains at a low level of 2.48 g/cm³, while the mechanical properties show significant improvement. The Vickers hardness reaches 36.81 GPa, and the fracture toughness is 4.05 MPa·m^1/2. These combined properties represent one of the best performance levels currently achieved in high-purity B₄C ceramics. Additionally, the improved sintering performance enables the KB/B₄C ceramic to fully manifest its superior impact-resistance and anti-fragmentation capabilities. These findings provide valuable insights for the preparation and application of lightweight, high-performance B₄C ceramics.