TITAN Pearl Pigment
- Deep black color using a natural mica base
- Excellent expression of black color
- Various black colors
- Various formulations are applicable with non-bleeding effects - 10 - 60 prn
TITAN-TR Pearl Pigment
- Produces a deep, black glow and high gloss
- Excellent expression of black color
- Various black colors
-Various formulations are applicable with non-bleeding effects. - 20 - 100 pm/ 50 - 250 pm
- High gloss achieved by using Borosilicate Glass base
- Various colors and excellent color expression
- Good price competitiveness
- 20 - 100 pm/ 50 - 250 pm
- Particle size : 8 - 14pm
- Non shinning Pearl pigment
- High hiding: 30% higher than general pearl
- High interference color expression (Red, Green, Blue)
- 3-D Make up effect
- Higherfront reflexibility and lower side reflexibility
- The front of the face is bright and the sides are shaded
- Mica/Ti02/TinO2n-1
- Surface treated inorganic pigments for cosmetics
- Various effects with a variety of surface treatment methods
- Increased safety in formulations
- Less cohesion in inorganic pigments
- Enhanced pigments and their texture
- Improved moisturizing effect
- Sebum control
- Protection against discoloration of cosmetics
Applications
HFB is used for critical dimension dielectric etch applications
Higher SiO2 etch rates can be achived with better Selectivity.
HFB is a Colorless, Odorless, and flammable liquefied gas
Description
Halocarbon 218 (Perfluoropropane)(C3F8) is a colorless, nonflammable, nontoxic gas which is relatively stable and has a faintly sweet odor.
Halocarbon 218 is shipped as a liquefied gas under its Own vapor pressure (103 psig@ 70° F).
Applications
Halocarbon 218 is used for plasma etching. The chemical composition of Halocarbon 218 supplies a higher ratio of Fluorine to Carbon than any
Of the other Halocarbon gases supplied by Electronic Fluorocarbons LLC. When Halocarbon 218 is exposed to the RF field generated in the etch process, a gas plasma is produced that will etch Silicon Dioxide or Silicon Nitrite with exel lent selectivity.
