Examples of 'pyrolytic carbon' in a sentence
Meaning of "pyrolytic carbon"
A type of carbon material that is created through the process of pyrolysis, which involves heating carbon-rich materials to high temperatures in the absence of oxygen. This results in the formation of a strong and durable carbon material with various applications in industries such as medicine and engineering
How to use "pyrolytic carbon" in a sentence
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pyrolytic carbon
Eventual residual pyrolytic carbon from binders.
The pyrolytic carbon is deposited onto a substrate material.
The coke residue surface was coated with pyrolytic carbon.
Deposition of pyrolytic carbon into the body.
That second purification step removed all pyrolytic carbon.
Separate pyrolytic carbon blocks used as heating elements and.
The device itself may be made of pyrolytic carbon or graphite.
Yet pyrolytic carbon has the drawback of being poorly adapted as component of an assembly.
Layer of silicon carbide sandwiched between two layers of pyrolytic carbon.
The deposition rate of pyrolytic carbon is activated by the temperature of the substrate.
The crucible may therefore be coated with a layer of pyrolytic carbon.
The preform was densified with a pyrolytic carbon matrix by chemical vapor infiltration.
Pyrolytic carbon is biocompatible and is currently utilized in a number of implantable medical devices.
Establishing the amount of any residual pyrolytic carbon from binders.
Pyrolytic carbon is useful due to desirable thromboresistance and generally high durability.
See also
Shows a silicon carbide coating sandwiched be tween two layers of pyrolytic carbon.
Then pyrolytic carbon was deposited onto the pores surface within the preform.
The composite materials also include one or more layers of pyrolytic carbon.
Oxygen plasma treatment of the pyrolytic carbon surface significantly increased cell viability.
The product was melted in a crucible made of graphite coated with a pyrolytic carbon coating.
The pyrolytic carbon matrix was obtained from a gas comprising a mixture of methane and propane.
Pyrolysis of a gaseous hydrocarbon is employed for depositing pyrolytic carbon upon a substrate surface.
The lubricious nature of the pyrolytic carbon is particularly advantageous with drug coated stents.
The resin was carbonized during the rise in temperature that preceded pyrolytic carbon infiltration.
Pyrolytic carbon can be deposited within a fluidized bed reactor using hydrocarbon gases as reactants.
Such cracking would lead to the deposition of pyrolytic carbon on the catalyst sites.
Pyrolytic carbon can exist in a wide range of microstructures and varied content of residual hydrogen.
Pyrolytic graphite is generally formed at higher temperatures than those used to form pyrolytic carbon.
The biocompatible coating comprises pyrolytic carbon and an NO generator.
Preferably, pyrolytic carbon or boron nitride will be used.
The biocompatible coatings of the invention include pyrolytic carbon and an NO generator.
In addition, pyrolytic carbon is a lubricious material.
Material comprising a graphite substrate and a pyrolytic carbon coating ;.
Pyrolytic carbon is man-made and is not thought to be found in nature.
This second coat includes both pyrolytic carbon and an NO generator.
The pyrolytic carbon component 2 is preferably mechanically interlocked to the metal component 1.
The NO generator may be codeposited with pyrolytic carbon to form a biocompatible layer.
The method as claimed in claim 6, wherein the lining is made of pyrolytic carbon.
The biocompatible coating comprises pyrolytic carbon and at least one NO generator.
Relevant carbonaceous solids include, for example, graphite and pyrolytic carbon.
Because of this, pyrolytic carbon exhibits several unusual anisotropic properties.
They also produced ultra-thin films made of either graphene or pyrolytic carbon.
In this assembly, the pyrolytic carbon is permanently kept under stress.
Pyrolytic carbon has many drawbacks, such as being expensive, brittle and invisible on radiographs.
The carbon substrate may be made of pyrolytic carbon or made of a carbon-carbon composite.
A method as claimed in claim 1, wherein said intermediate layer consists of laminar pyrolytic carbon.
Also advantageously, a pyrolytic carbon matrix is formed of the rough laminar type.
The composition of claim 1 characterised in that said plurality of discrete particles are pyrolytic carbon.
The thickness of the pyrolytic carbon layer conventionally lies in the range 1 um to 5 um.
Forming on the fibers an intermediate coating of laminar pyrolytic carbon by chemical vapor infiltration ;.
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