diX makes a Poly-para-Xylylene coating film formed by the chemical vapor deposition (CVD) process.
The coating film is completely pinhole free and the film thickness can be uniformly controlled in the micron range to conform to any irregular shape, whether it has a sharp edge or a complicated internal surface without any thermal stress.
     
Key Features
  
     
 
Varieties of diX
  
     
 
Properties of diX
  
     
 
DACS
  
     
 
Contact
  
     
 
JAPANESE
  



1) High gas barrier properties (to H2O, O2, etc.)
2) Exceptional corrosion resistance
3) Strong resistance to most chemicals
(Acids, Alkalis and Solvents)
4) High dielectricity, low dielectric constant and
low dissipation factor
5) Excellent flexibility and mechanical properties
at super low temperatures
6) Exceptional radiation resistance in oxygen
free environments
7) No measurable out-gassing
8) Meets standards for Mil-I-46058C,
IPC-CC-830B, UL94 V-0,
FDA Drug and Device Master files,
USP Class VI biocompatibility testing,
and ISO 10993 for medical devices



* Ferrite cores: Insulation and wiring protection
* Rare earth magnets: Corrosion resistance and
insulation
* Printed circuit boards (PCB): Insulation and
moisture barrier properties
* Sensors: Gas barrier and chemical resistance
* Rubber parts: Lubricity and chemical resistance
* Catheters and Guide wires: Lubricity and
chemical resistance
* Implants: Corrosion resistance and allergy
prevention
* Premier coating for critical applications
Aerospace electronics, Space exploration,
Military devices, Automotive electronics and
Sensors, Medical devices and electronics,
Flat panel displays, Micro-machines(MEMS)
diX is applied using a specially designed chemical vapor deposition (CVD) machine. This machine consists of 3 primary components: a Vaporizer, a Pyrolizer, and a Deposition chamber. diX dimer, in its original powder form, is placed in a metal boat in the Vaporizer, and the item(s) to be coated is placed or fixtured in the Deposition chamber.
The diX dimer is vaporized at approximately 120-180, and the dimer gas is drawn into the Pyrolizer, where it is heated to approximately 650-700 and converted to a monomer gas. The vacuum pump then draws the monomer gas into the Deposition chamber, where it is cooled to room temperature upon contact with the surface of the item(s) inside, and polymerizes into a high molecule Poly-para-Xylylene film on the surface.

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