ACT® O-Rings
Four examples of fully (right and left hand side) and partially (top and bottom) ACT® coated orifice rings. Small orifice size is achievable. The orifice size remains stable throughout the extended service lifetime.

ACT® O-Rings
Three examples of fully (right hand side and middle) and partially (left hand side) ACT® coated orifice rings. Small orifice size is achievable. The orifice size remains stable throughout the extended service lifetime.

ACT® O-Rings
This complex-shaped orifice ring is used for TV panel production. The shape is critical to the quality of the product and the ACT® coating ensures that this shape is maintained.

ACT® O-Rings
An oval shaped ACT® coated triple gob orifice ring. This operates with a specially shaped spout bowl, also coated.

ACT® O-Rings
A fully coated triple gob orifice ring for container production. We recommend using it in conjunction with an ACT® coated plunger and a tube stirrer for complete protection.

ACT® O-Rings
A fully coated quad gob orifice ring for container production. We recommend using it in conjunction with an ACT® coated plunger and a tube stirrer for complete protection.

ACT® O-Rings
A double gob orifice ring after two years service in opal glass. Note the still perfect shape of the whole ring and the orifice exits in particular.

ACT® O-Rings
A section through a used ACT® platinum coated orifice ring, which was located below the feeder chamber on a lead crystal line. As with the feeder chambers, the elimination of corrosion greatly contributes to improved product quality.

ACT® O-Rings
A section through an ACT® coated orifice ring after 13 months in service. The shape of the component remains unchanged.

ACT® O-Rings
A special non-stick alloy (5% Au/Pt) used to combat a severe devitrification problem. This alloy solution eliminated devitrification on this green wine bottle line.

ACT® O-Rings
The special non-stick alloy (5% Au/Pt) was applied as a partial coating. This means that very little platinum is required to solve the devitrification problem.

ACT® O-Rings
Three examples of fully ACT® coated orifice rings. Small orifice size is achievable. The orifice size remains stable throughout the extended service lifetime.

ACT® O-Rings
The ACT® coating on the lower face of this orifice ring has been polished to prevent the glass from sticking to it.

ACT® O-Rings
The surface finish of the exit to this velo ring is critical to the quality of the tube produced. The ACT® coating provides corrosion protection and is polished for a sub-micron surface finish.

ACT® O-Rings
The surface finish of the exit to this velo ring is critical to the quality of the tube produced. The ACT® coating provides corrosion protection and is polished for a sub-micron surface finish.

ACT® O-Rings
The surface finish of the exit to this velo ring is critical to the quality of the tube produced. The ACT® coating provides corrosion protection and is polished for a sub-micron surface finish.

ACT® O-Rings
The surface finish of the exit to this velo ring (Bottom view) is critical to the quality of the tube produced. Also, a view of the substrate before coating on the top corner.

ACT® O-Rings
A closer view of the surface finish of this velo ring exit (Bottom view).

ACT® O-Rings
A closer view of the surface finish of this velo ring exit (Top inside view).

ACT® O-Rings
This shows an even higher grade of surface finish is achievable with our ACT® coating Technology.