The Ceramic, Composite, and Optical Materials Center (CCOMC) functions as a complete ceramic science and engineering center developing synthesis and processing systems for powders at all length scales. Ranging from nanoscale particles to macroscale parts and devices. CCOMC develops leading-edge ceramic, polymer/ceramic composite, and nano materials and processes to improve the technical base that is needed by companies to compete successfully in the global marketplace. CCOMC’s mission is to drive development of competitive, reproducible ceramic, polymer/ceramic composites, particulate materials, and nanomaterials for advanced, high-performance systems. It does this by creating and transferring to industry members the new technologies and relevant technical base. CCOMC’s research will help meet the ever-increasing demand for higher-performance ceramic, composite, and optical materials that can be readily processed for needed applications.
Research Areas
Powder synthesis and processing
Modeling of binder removal.
Additive manufacturing by direct injection.
Additive manufacturing by stereolithography.
Green body microstructure uniformity in stereolithography printed alumina.
Materials for extreme dynamic environments
Transformations in amorphous boron nitride (a-BN) to cubic boron nitride (c-BN).
Processing of titanium and zirconium boride powders.
Arc-melted high-temperature ceramics.
Amorphization in boron carbide.
Improved fiber technologies
Wettability control by the fiber shape from natural to artificial super fibers.
Fibers that will possess hydrophobic/oleophobic for an extended period of time.
Multicomponent fiber extrusion capabilities and exploration.
Facilities & Resources
Partner Organizations
Abbreviation |
CCOMC
|
Country |
United States
|
Region |
Americas
|
Primary Language |
English
|
Evidence of Intl Collaboration? |
|
Industry engagement required? |
Associated Funding Agencies |
Contact Name |
Phil Brown
|
Contact Title |
Center Director
|
Contact E-Mail |
pjb@clemson.edu
|
Website |
|
General E-mail |
|
Phone |
|
Address |
The Ceramic, Composite, and Optical Materials Center (CCOMC) functions as a complete ceramic science and engineering center developing synthesis and processing systems for powders at all length scales. Ranging from nanoscale particles to macroscale parts and devices. CCOMC develops leading-edge ceramic, polymer/ceramic composite, and nano materials and processes to improve the technical base that is needed by companies to compete successfully in the global marketplace. CCOMC’s mission is to drive development of competitive, reproducible ceramic, polymer/ceramic composites, particulate materials, and nanomaterials for advanced, high-performance systems. It does this by creating and transferring to industry members the new technologies and relevant technical base. CCOMC’s research will help meet the ever-increasing demand for higher-performance ceramic, composite, and optical materials that can be readily processed for needed applications.
Abbreviation |
CCOMC
|
Country |
United States
|
Region |
Americas
|
Primary Language |
English
|
Evidence of Intl Collaboration? |
|
Industry engagement required? |
Associated Funding Agencies |
Contact Name |
Phil Brown
|
Contact Title |
Center Director
|
Contact E-Mail |
pjb@clemson.edu
|
Website |
|
General E-mail |
|
Phone |
|
Address |
Research Areas
Powder synthesis and processing
Modeling of binder removal.
Additive manufacturing by direct injection.
Additive manufacturing by stereolithography.
Green body microstructure uniformity in stereolithography printed alumina.
Materials for extreme dynamic environments
Transformations in amorphous boron nitride (a-BN) to cubic boron nitride (c-BN).
Processing of titanium and zirconium boride powders.
Arc-melted high-temperature ceramics.
Amorphization in boron carbide.
Improved fiber technologies
Wettability control by the fiber shape from natural to artificial super fibers.
Fibers that will possess hydrophobic/oleophobic for an extended period of time.
Multicomponent fiber extrusion capabilities and exploration.