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Applications |
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Applications
Parylene coating has been commercially available
for over 30 years and its properties are use in a wide range of
applications.
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Circuit Boards
Coatings are thin, truly conformal, stress-free and
resistant to solvent and fungal attack. Good adhesion minimizes
ionic conduction at the coating-substrate interface and
strengthens solder joints. Low dielectric constant minimizes
loading in high frequency applications.
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Hybrid
Circuits
Good
adhesion to ceramic substrates. Good throwing power enables
coating within spaces as narrow as 10μ. Interior of packages may
be coated via a 1mm hole - coating strengthens wire-bonds and
immobilizes particles of debris such as solder balls.
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Components
Ferrite
cores and bobbins are coated to reduce friction and abrasion in
coil forming and to prevent chipping and dust formation. Coating
cast metal magnets gives corrosion protection and electrical
insulation. Accelerometers, strain gauges, pressure sensors etc
may be coated for electrical insulation and environmental
protection.
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Rubber and Plastics
In the coating process the monomer is able to penetrate the
surface of rubbers and plastics giving very good adhesion. A 2μ
coating imparts dry lubricant and wear resistance
characteristics to the surface. For example silicone rubber
keypads are coated to improve the 'feel' of the surface and to
protect the printing and 'O'-rings are coated to reduce friction
in, for example, syringes. A thicker coating improves chemical
and solvent resistance.
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Optics &
Instrumentation
The
excellent optical and barrier properties of Parylene and the
stress-free nature of the coatings find many uses in this field,
particularly in protecting moisture-sensitive elements such as
potassium bromide windows. Freestanding films of Parylene may be
produced by stripping the coating from suitably prepared glass
plates and are used to produce windows and other components in
instrumentation.
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Medical
Components
Because
Parylene has excellent barrier properties, cannot be
hydrolytically degraded in the corrosive biological environment
and is capable of penetrating and coating the bore of narrow
tubes it has many uses in this field:
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Protecting electronic circuitry and other
components for example in pacemakers
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Protecting the body from toxic materials
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Adding surface lubricity to improve the
functioning of catheters, probes, etc
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Trapping and preventing the production of
surface debris in, for example, implants
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Stents
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Cardiac assist devices
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Electrosurgical tools
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Mandrels and molds
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Catheters
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Elastomeric seals
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Needles and epidural probes
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Medical electronics
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The unique application
process and the predictable barrier properties and mechanical
strength of Parylene coatings have also found other interesting
applications:
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Strengthening
paper in old books and manuscripts — books may be
coated without dismantling them.
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Preserving
archaeological artifacts
particularly those from underwater sites such as the
Titanic, Coating explosives and solid rocket fuels to make
them less moisture sensitive and to modify other
characteristics.
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Ultra-thin
Parylene conformal coatings provide magnet and ferrite core
applications excellent dielectric properties.
With a lower dielectric constant, lower dissipation factor
and high dielectric strength compared to industry-standard
coatings, Parylene coatings are uniquely suited for
electrical insulation on miniature wire wound components.
Parylene coatings also provide protection against abrasion
damage that may occur during the winding process. Finally,
Parylenes dry lubricity (low coefficient of friction) is
also beneficial in the winding process.
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The use of adhesive tape as insulation
between winding and metal component is a well established
process however as components get smaller, application of
tape becomes difficult, in many instances resulting in less
yield of acceptable parts. A
coating of Parylene can virtually eliminate faulty
components while improving electrical performance.
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Molded plastic NdFeB magnetic components
are fragile and an additional advantage of a Parylene
coating is increased strength. NdFeB material is also very
susceptible to corrosion from atmospheric moisture. The
extremely low water vapor transmission properties of
Parylene provide excellent protection against corrosion.
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Parylene coatings often also offer a
reduction in processing and labor costs
since it is possible to coat many thousands of parts
simultaneously using a tumble system during the vapor
deposition process.
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Liquid Coatings do not provide even
coverage across all surfaces of a coil form. Build-up of
conventional coating material on a coil form can restrict
windings capacity compared to an uncoated form or a form
with a thin and uniform Parylene Coating.
Thin and uniform Parylene coating has little effect on the
shape and capacity of a coil form.
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Parylene Testing
Exhibits |
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Printed Circuit Board
partially coated with Parylene film and then soaked in
sulfuric acid for 24 hours. Note complete elimination
of circuit pathways on untreated upper left portion. No
damage to lower treated section. |
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Standard Galvanized Steel Washer half
treated with Parylene the other half left in natural state.
Washer dipped in acid then left exposed to the elements.
Test ongoing with no sign of corrosion to treated half.
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