MATECH


The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.

MATECH provides full-service solutions to the most challenging problems in high temperature and ultra-high-temperature (UHT) materials.

 

These services and opportunities include:

  1. INTELLECTUAL PROPERTY: Licensing unique and innovative Intellectual Property (IP) that provides the licensee with a competitive advantage in multi-billion-dollar industries and applications. These include hypersonic aeroshells and heat shields for Earth reentry from low earth orbit (LEO), Lunar return, and Mars return. Other technologies available address nosetips for hypersonics, turbine engine components, and rotational detonation engines (RDEs).
  2. SPECIAL PROJECTS: MATECH Performs “Special Programs” for companies that include having unique materials and composites manufactured for critical programs using a trusted network of vendors and service providers. All of MATECH's vendors and service providers are 100% USA, ISO 9000, and AS9100 certified.
  3. CONSULTING: MATECH Provides expert consulting services. With proven leadership as a well-recognized and world-renowned Subject Matter Expert (SME) in ultra-high-temperature (UHT) materials, Dr. Ed Pope and MATECH can address your company’s “hottest” and most challenging material problems. MATECH can help you and your company with designing and/or selecting the best material approach for your applications. I am also an expert at proposal writing, manufacturing strategies, and supply chain sourcing.

 


Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
Thr traditional "brick and mortar" MATECH has been replaced with a new "Virtual MATECH" starting in 2023.The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.
The traditional "brick and mortar" MATECH was closed on July 1, 2021, after >33 years and has evolved into a new and lean "Virtual MATECH," performing both consulting, technology licensing, and "special projects" using a network of vendors and service providers. For more information email ed@matechgsm.com for inquiries.  Also, see the LinkedIn profile of "Dr. Ed Pope." 

Since its founding in 1989, MATECH has become recognized as a world class research and development laboratory in the areas of optical, electronic, bio-materials, and high temperature ceramic and composite materials by chemical polymerization methods.  MATECH's primary goal is the development and commercialization of high temperature and ultra-high-temperature (UHT) ceramic fibers and ceramic matrix composite technologies. 

MATECH has developed a family of preceramic polymers for the fabrication of silicon carbide (SiC), silicon nitride/carbide (SiNC), silicon oxycarbide (SOC), silicon nitride (Si3N4), and hafnium carbide (HfC), all for high temperature structural applications.  All of these ceramic materials have been fabricated in the form of structural ceramic fibers. In addition, ceramic matrix composites (CMCs) can be densified using MATECH's preceramic polymer technology.