Add to ORKGCeramics are strong, but their low fracture toughness prevents extended engineering applications. In particular, boron carbide (B_4C), the third hardest material in nature, has not been incorporated into many commercial applications because it exhibits anomalous failure when subjected to hypervelocity impact. To determine the atomistic origin of this brittle failure, we performed large-scale (∼200 000 atoms/cell) reactive-molecular-dynamics simulations of shear deformations of B_4C, using the quantum-mechanics-derived reactive force field simulation. We examined the (0001)/⟨101¯0⟩ slip system related to deformation twinning and the (011¯1¯)/⟨1¯101⟩ slip system related to amorphous band formation. We find that brittle failure in B_4C arises...
Extensive studies of metals and alloys have observed that nanotwins lead to strengthening, but the r...
Our studies of brittle fracture in B<sub>4</sub>C showed that shear-induced cracking of the (B<sub>1...
Boron suboxide (B<sub>6</sub>O), boron carbide (B<sub>4</sub>C), and related materials are superhard...
Ceramics are strong, but their low fracture toughness prevents extended engineering applications. In...
Grain boundaries, ubiquitous in real materials, play an important role in the mechanical properties ...
Boron carbide (B_4C) is the third hardest material in nature, but applications are hindered by its b...
Boron carbide (B_4C) is very hard, but its applications are hindered by stress-induced amorphous ban...
The recent observation of the reverse Hall-Petch relation in nanocrystalline ceramics offers a possi...
The role that grain boundaries (GBs) can play on mechanical properties has been studied extensively ...
Boron carbide (B4C) is the third hardest material in nature, but applications are hindered by its br...
Boron suboxide (B_6O), boron carbide (B_4C), and related materials are superhard. However, they exhi...
Boron carbide (B_4C) is superhard but suffers from brittle failure because shear stress leads to for...
Our studies of brittle fracture in B_4C showed that shear-induced cracking of the (B_(11)C) icosahed...
The recent observation of the reverse Hall-Petch relation in nanocrystalline ceramics offers a possi...
The role that grain boundaries (GBs) can play on mechanical properties has been studied extensively ...
Extensive studies of metals and alloys have observed that nanotwins lead to strengthening, but the r...
Our studies of brittle fracture in B<sub>4</sub>C showed that shear-induced cracking of the (B<sub>1...
Boron suboxide (B<sub>6</sub>O), boron carbide (B<sub>4</sub>C), and related materials are superhard...
Ceramics are strong, but their low fracture toughness prevents extended engineering applications. In...
Grain boundaries, ubiquitous in real materials, play an important role in the mechanical properties ...
Boron carbide (B_4C) is the third hardest material in nature, but applications are hindered by its b...
Boron carbide (B_4C) is very hard, but its applications are hindered by stress-induced amorphous ban...
The recent observation of the reverse Hall-Petch relation in nanocrystalline ceramics offers a possi...
The role that grain boundaries (GBs) can play on mechanical properties has been studied extensively ...
Boron carbide (B4C) is the third hardest material in nature, but applications are hindered by its br...
Boron suboxide (B_6O), boron carbide (B_4C), and related materials are superhard. However, they exhi...
Boron carbide (B_4C) is superhard but suffers from brittle failure because shear stress leads to for...
Our studies of brittle fracture in B_4C showed that shear-induced cracking of the (B_(11)C) icosahed...
The recent observation of the reverse Hall-Petch relation in nanocrystalline ceramics offers a possi...
The role that grain boundaries (GBs) can play on mechanical properties has been studied extensively ...
Extensive studies of metals and alloys have observed that nanotwins lead to strengthening, but the r...
Our studies of brittle fracture in B<sub>4</sub>C showed that shear-induced cracking of the (B<sub>1...
Boron suboxide (B<sub>6</sub>O), boron carbide (B<sub>4</sub>C), and related materials are superhard...