Add to ORKGFreeze-cast porous ceramics are of interest due to a broad range of applications such as filters, bioscaffolds, and catalyst supports. However, achieving the desired mechanical strength while retaining sufficient functionality, such as permeability, has been challenging. In this work, hierarchical structures of bridged lamellar pores were created via two-stage freeze casting of a preceramic polymer to enhance compressive strength of the resulting SiOC. It has been shown that the bridge density can be controlled by changing the concentration of preceramic polymer in solution and compressive strength increased approximately threefold while permeability constants ranged from 9.63 × 10^(−13) to 3.96 × 10^(−12) m^2
Cellular ceramics, possessing both open or closed porosity, find use in several demanding engineerin...
Freeze-casting is a method of synthesizing porous materials from mixtures comprised of a dispersed p...
Reinforcement strategies were applied to solution-based freeze-casting systems to form porous cerami...
Freeze-cast porous ceramics are of interest due to a broad range of applications such as filters, bi...
Surface area, permeability, and mechanical robustness are particularly crucial for porous ceramics u...
A grain-selection template was applied to freeze casting to control nucleation of pore-forming cryst...
A commercially available polysiloxane was used as a preceramic polymer for solution freeze casting t...
Freeze casting of traditional ceramic suspensions and freeze casting of preceramic polymer solutions...
By employing carefully controlled processing methods, a large amount of porosity (>70 vol%) was intr...
Porous ceramics are favored in a multitude of applications, such as filters, catalyst supports, and ...
Cellular ceramics, possessing both open or closed porosity, find use in several demanding engineerin...
Cellular ceramics are a class of high porosity materials that are used or are being considered for a...
In this contribution, a low-pressure/low-temperature casting technique for the preparation of novel ...
Research Location: California Institute of TechnologyShape memory materials experience diffusionless...
Polymer derived porous silicon oxycarbide (SiOC) ceramics show higher heat resistance than that of S...
Cellular ceramics, possessing both open or closed porosity, find use in several demanding engineerin...
Freeze-casting is a method of synthesizing porous materials from mixtures comprised of a dispersed p...
Reinforcement strategies were applied to solution-based freeze-casting systems to form porous cerami...
Freeze-cast porous ceramics are of interest due to a broad range of applications such as filters, bi...
Surface area, permeability, and mechanical robustness are particularly crucial for porous ceramics u...
A grain-selection template was applied to freeze casting to control nucleation of pore-forming cryst...
A commercially available polysiloxane was used as a preceramic polymer for solution freeze casting t...
Freeze casting of traditional ceramic suspensions and freeze casting of preceramic polymer solutions...
By employing carefully controlled processing methods, a large amount of porosity (>70 vol%) was intr...
Porous ceramics are favored in a multitude of applications, such as filters, catalyst supports, and ...
Cellular ceramics, possessing both open or closed porosity, find use in several demanding engineerin...
Cellular ceramics are a class of high porosity materials that are used or are being considered for a...
In this contribution, a low-pressure/low-temperature casting technique for the preparation of novel ...
Research Location: California Institute of TechnologyShape memory materials experience diffusionless...
Polymer derived porous silicon oxycarbide (SiOC) ceramics show higher heat resistance than that of S...
Cellular ceramics, possessing both open or closed porosity, find use in several demanding engineerin...
Freeze-casting is a method of synthesizing porous materials from mixtures comprised of a dispersed p...
Reinforcement strategies were applied to solution-based freeze-casting systems to form porous cerami...