Announcements
Discover a thermal management material solution that provides "diamond like" thermal conduction without the "diamond" price
(read more)FIREX™ coatings are used to "buy time" ... critical time... for the containment and suppression of thermal threats to personnel, equipment, and structures.
(read more)- Discover a thermal management material solution that provides thermal conduction without the "diamond" price
- Understand why Pyroid® HT material solutions are ideal for high-volume production and provide economic value at the device assembly level
- Learn how to optimize heat sinks and spreaders with the Pyroid® HT software modeling tool
- High hardness next to diamond.
- Extremely wear and abrasion resistance.
- High flexural strength at room or high temperature.
- Excellent thermal shock resistance due to its low thermal expansion and high thermal conductivity.
- Excellent corrosion resistance.
- High temperature resistance
Save the Die with Pyroid® HT pyrolytic graphite thermal spreaders
(read more)Pyroid® HT PG thermal management material is an economical, high performance thermal managment solution available in sheets or shapes. Pyroid® HT heat spreader material - better performance!
(read more)High-purity pyrolytic graphite provides innovative solutions for semiconductor applications
Pyrolytic Graphite is easily machined, the material can be manufactured into complicated parts with close tolerances, supplied with a high level of surface finish, flatness or a defined surface roughness.
Using Pyroid® Protective Coatings for Carbon and Graphite surfaces ensures uniform heat distribution in the resulting in superior quality and increased productivity Semiconductor and UV producers.
(read more)Over the years FIREX™ coatings have been utilized in numerous applications requiring fire and thermal protection. Those applications include ships, tanks, military vehicles, shelters, aircraft, and space vehicles and are especially protective in a jet fuel environment. Now they are available for chemical, oil and gas, and other applications.
(read more)Pyrolytic Graphite can be easily machined and the material can be routinely manufactured into complicated parts with close tolerances. Pyrolytic Graphite is can be supplied with a high level of surface finish, flatness or a defined surface roughness.
(read more)The new Thermal Protection System: Firex™ Material and Aerobotix Application
The Pentagon is asking manufacturers to accelerate hypersonic weapons development. Minteq International the manufacturer of Firex™ teamed up with Aerobotix applying Firex™, to support this need.
Pyroid pyrolytic graphite offers superior physical properties.
• Zero porosity
Customer Benefit:
Zero porosity translates into little or no outgassing of contaminants and no structure capable of trapping contaminants that can alter the dopant effect on the implantation.
Pyrolytic Graphite exhibits the lowest erosion rate of any known material, even in extreme working conditions such as in ion bombardment or in plasma applications.
(read more)Firex™ coatings are designed to interrupt or hinder the combustion processes of a fire allowing more time to escape.
(read more)Pyrolytic graphite is oftentimes used in applications where extreme temperature, even up to 6000°F (3300°C) and corrosive environments exist. It conducts heat across its (a-b) planar surface better than copper and insulates like a ceramic in the (c) thickness direction.
(read more)A Pyroid HT pyrolytic graphite thermal heat sink was designed for the same fin efficiency to replace the existing heat sink. Pyroid HT provides 10X the thermal conductivity of aluminum, offering significant thermal transfer benefits along the heat sink fin length.
(read more)Pyrolytic Graphite exhibits the lowest erosion rate of any known material, even in extreme working conditions such as in ion bombardment or in plasma applications.
(read more)The aerospace community has a long history of using Pyroid® pyrolytic graphite and other products to serve their customers and support vital national security interests.
(read more)Ideal for all types of glass including:
- Soda-lime
- Borosilicate
- Lead glass
- Aluminosilicate glass
- Fused silica
Pyroid® HT is an engineered carbon product that has in-plane thermal conductivity of 1700 W/m·K which is 4 times greater than the value for copper. In addition to superior heat transfer performance, the density of Pyroid® HT is 75% less than that of copper, allowing for light-weight and high-performance thermal management solutions.
(read more)Metallize the surface of Pyroid® HT pyrolytic graphite heat spreaders to provide particle containment and solderability to a material with four times the thermal conductivity of copper! Various electronic grade coating schemes available.
(read more)Pyroid® HT is an engineered carbon product that has in-plane thermal conductivity of 1700 W/m·K which is 4 times greater than the value for copper. In addition to superior heat transfer performance, the density of Pyroid® HT is 75% less than that of copper, allowing for light-weight and high-performance thermal management solutions.
(read more)Pyroid® SN-PG has several material properties that provide advantages over graphites currently used in semi-conductor manufacturing.
(read more)Pyrogenics FIREX™ coatings absorb and reject thermal energy in a controlled fashion. Multiple options available, utilizing intumescent or ablative mechanisms, to buy critical time when you need it most!
(read more)Autonomous vehicle technology demands thermal management innovation generation is slowing progress. Pyroid®HT removes heat 4X faster than copper, at 75% the weight!
(read more)High-Purity Pyrolytic Graphite Provides Innovative Solutions for Semi-Conductor Applications
Increase performance, and component life by using Pyroid® SN-PG for semi-conductor manufacturing
Pyroid® HT is an engineered carbon product with thermal conductivity of 1600 W/m·K, which is 4 times greater than the value for copper, while weighing 75% less.
(read more)The New Thermal Protection System: Firex™ Material and Aerobotix Application
The Pentagon is asking manufacturers to accelerate hypersonic weapons development. Minteq International the manufacturer of Firex™ teamed up with Aerobotix applying Firex™, to support this need.
Heat is the enemy of electronic circuits and devices. It limits performance and leads to premature failure. We are introducing a new weapon in the ongoing battle against thermal problems. Discover how the heat spreading ability of a new material solution — Pyroid® HT®... cuts size, weight, and cost from electronics packaging.
(read more)Pyroid® HT pyrolytic graphite thermal spreaders and thermal vias are a powerful new material solution in the battle against thermal heat in state-of-the-art electronic circuits and devices.
(read more)With heat issues limiting power device performance and growth, we have developed a derivative of our material branded as Pyroid® HT Pyrolytic Graphite material that offers heat spreaders and sink thermal conductivity up to 4 times (1700 W/m°K) that of copper at only a quarter of the weight.
(read more)Pyrolytic Graphite exhibits the lowest erosion rate of any known material, even in extreme working conditions such as in ion bombardment or in plasma applications.
(read more)FIREX™ coatings are used to "buy time" ... critical time... for the containment and suppression of thermal threats to personnel, equipment, and structures.
(read more)Firex™ coatings are designed to interrupt or hinder the combustion processes of a fire allowing more time to escape.
(read more)Over the years FIREX™ coatings have been utilized in numerous applications requiring fire and thermal protection. Those applications include ships, tanks, military vehicles, shelters, aircraft, and space vehicles and are especially protective in a jet fuel environment
(read more)Pyroid® pyrolytic graphite offers superior heat conduction and insulating capability in one material. And it resists erosion under vacuum.
(read more)Pyroid® HT is an ideal solution for any application where excessive heat generation exists, offering an in-plane thermal conductivity of 1500 W/m·K, while weighing 75% less than copper.
(read more)