Add to ORKGThe basis of this study is that the mechanical properties of Boron suboxide (B6O) materials, especially fracture toughness are greatly influenced by the composition of the grain boundary phase and the grain size of the phases in the sintered material. Therefore, in this work, effort has been directed towards improving the fracture toughness and densification of this material by incorporating potential rareearth oxide phases and tailoring the microstructure to the desired properties. Boron suboxide (B6O) powder was synthesized from the reaction of amorphous boron and boric acid powders. The powder was hot pressed at 1900 °C and 50 MPa. Additionally to pure sintered B6O, materials with rareearth oxides were prepared at 1850°C. The microstruct...
Fully densified B6O materials with Al2O3/Y2O3 sintering additives amounts systematically varied betw...
B6O powders were hot pressed with and without Al2O3 as a sintering additive at temperatures up to 19...
Boron suboxide (B6O) based materials containing TiB2 additions were produced in this study via two r...
The problem of low fracture toughness and the difficulties to densify has delayed the application o...
The search for suitable sintering additives for boron suboxide (B6O) materials which could improve d...
With a hardness up to 45 GPa measured on single crystals and a fracture toughness even exceeding tha...
With a hardness of up to 45 GPa and a fracture toughness of 4.5 MPa*m1/2 measured on single crystals...
B6O is a possible candidate as a superhard material with a hardness of 45 GPa measured on single cry...
This study investigated and compared the mechanical properties of boron suboxide (B6O) with and with...
Boron suboxide (B6O) powder was synthesized at temperatures of about 1400 degrees C from the reactio...
The search for suitable additives for boron suboxide (B 6O) materials which could improve densificat...
B6O composites were prepared by hot pressing of B6O powder with alumina, aluminium and carbon additi...
B6O-based materials are known as some of the hardest materials after diamond and cubic boron nitride...
Boron-rich phases like boron carbide and boron suboxide (nominally B6O), with high hardness, low den...
B6O materials were prepared by a reactive and a non-reactive sintering routine using FAST/SPS and si...
Fully densified B6O materials with Al2O3/Y2O3 sintering additives amounts systematically varied betw...
B6O powders were hot pressed with and without Al2O3 as a sintering additive at temperatures up to 19...
Boron suboxide (B6O) based materials containing TiB2 additions were produced in this study via two r...
The problem of low fracture toughness and the difficulties to densify has delayed the application o...
The search for suitable sintering additives for boron suboxide (B6O) materials which could improve d...
With a hardness up to 45 GPa measured on single crystals and a fracture toughness even exceeding tha...
With a hardness of up to 45 GPa and a fracture toughness of 4.5 MPa*m1/2 measured on single crystals...
B6O is a possible candidate as a superhard material with a hardness of 45 GPa measured on single cry...
This study investigated and compared the mechanical properties of boron suboxide (B6O) with and with...
Boron suboxide (B6O) powder was synthesized at temperatures of about 1400 degrees C from the reactio...
The search for suitable additives for boron suboxide (B 6O) materials which could improve densificat...
B6O composites were prepared by hot pressing of B6O powder with alumina, aluminium and carbon additi...
B6O-based materials are known as some of the hardest materials after diamond and cubic boron nitride...
Boron-rich phases like boron carbide and boron suboxide (nominally B6O), with high hardness, low den...
B6O materials were prepared by a reactive and a non-reactive sintering routine using FAST/SPS and si...
Fully densified B6O materials with Al2O3/Y2O3 sintering additives amounts systematically varied betw...
B6O powders were hot pressed with and without Al2O3 as a sintering additive at temperatures up to 19...
Boron suboxide (B6O) based materials containing TiB2 additions were produced in this study via two r...