Add to ORKGA silicon carbide with a fracture toughness as high as 9.1 MPa.m1/2 has been developed by hot pressing b-SiC powder with aluminum, boron, and carbon additions (ABC-SiC). Central in this material development has been systematic transmission electron microscopy (TEM) and mechanical characterizations. In particular, atomic-resolution electron microscopy and nanoprobe composition quantification were combined in analyzing grain boundary structure and nanoscale structural features
This work aimed at fabrication and characterization of high toughness SiC ceramics through the appli...
Silicon carbide based materials are being increasingly used as a room temperature structural materia...
A dense silicon carbide (SiC) ceramic with a very high flexural strength at 2000 degrees C (981 +/- ...
A silicon carbide with a fracture toughness as high as 9.1 MPa.m1/2 has been developed by hot pressi...
Through control of the grain-boundary structure, principally in the nature of the nanoscale intergra...
SiC, as one of the most promising candidate ceramics for high temperature structural applications, o...
The development of a high-toughness SiC is described, based on the notion of in situ toughening thro...
Polycrystalline SiC samples hot-pressed with aluminum, boron, and carbon sintering additions (ABC-Si...
SiC powder was hot pressed with 2 additive systems, BC system and ABC system, with the aim to determ...
SiC was hot-pressed with aluminum, boron, and carbon additives. The Al content was modified either t...
SiC/AA2024 nanocomposites with 1 and 5 vol.% SiC nanoparticles have been prepared by a powder metall...
Materials with grain sizes down to the nanometer range have recently attracted a lot of scientific i...
Silicon carbide (SiC) micro bullets were grown on a bio-carbon based charcoal substrate, the morphol...
The fracture toughness of three silicon carbide-based materials were examined in the light of operat...
Supplementary information files for 'Nanoscale investigation of deformation characteristics in a pol...
This work aimed at fabrication and characterization of high toughness SiC ceramics through the appli...
Silicon carbide based materials are being increasingly used as a room temperature structural materia...
A dense silicon carbide (SiC) ceramic with a very high flexural strength at 2000 degrees C (981 +/- ...
A silicon carbide with a fracture toughness as high as 9.1 MPa.m1/2 has been developed by hot pressi...
Through control of the grain-boundary structure, principally in the nature of the nanoscale intergra...
SiC, as one of the most promising candidate ceramics for high temperature structural applications, o...
The development of a high-toughness SiC is described, based on the notion of in situ toughening thro...
Polycrystalline SiC samples hot-pressed with aluminum, boron, and carbon sintering additions (ABC-Si...
SiC powder was hot pressed with 2 additive systems, BC system and ABC system, with the aim to determ...
SiC was hot-pressed with aluminum, boron, and carbon additives. The Al content was modified either t...
SiC/AA2024 nanocomposites with 1 and 5 vol.% SiC nanoparticles have been prepared by a powder metall...
Materials with grain sizes down to the nanometer range have recently attracted a lot of scientific i...
Silicon carbide (SiC) micro bullets were grown on a bio-carbon based charcoal substrate, the morphol...
The fracture toughness of three silicon carbide-based materials were examined in the light of operat...
Supplementary information files for 'Nanoscale investigation of deformation characteristics in a pol...
This work aimed at fabrication and characterization of high toughness SiC ceramics through the appli...
Silicon carbide based materials are being increasingly used as a room temperature structural materia...
A dense silicon carbide (SiC) ceramic with a very high flexural strength at 2000 degrees C (981 +/- ...