20 Key Benefits of InnoGUARD™
Cost-effective way to extend the working life of your raw tools & parts by 20X or greater.
Superior bonding ensures it does not peel or flake when mechanically impacted. It does not require a secondary polymer dip to prevent peeling or flaking like other ENC coatings.
Provides supreme resistance to highly corrosive environments such as steam, H2S, CO2, high calories, oxygen, and brine water.
Can withstand temperatures up to 880 degrees Celsius.
Reduces surface friction by 2/3 and is self-lubricating.
Can withstand high torqueing and compressive stress.
Consistent coating uniformity and thickness regardless of the part/tool geometry and cost efficient way to salvage mis-machined part and tools.
Available in varying thicknesses from 0.0005 inch to 0.004 inch, depending on application needs and specifications.
Coats the interior and exterior of the part or tool for the same cost.
Comparable in cost to epoxy or polymer coatings, with much better performance.
Effectively coats sharp edges, deep recesses, seams, threads and blind holes without impacting function.
Due to being a metallic coating, it has the same thermal co-efficient as the substrate and when the metal contracts or expands, no micro-cracking occurs as it does with epoxy or polymers.
Clean metals, such as new carbon steel, do not need to be sand-blasted prior to coating, therefore reducing costs and ensuring the substrate isn’t damaged.
Provides a more durable for surface on surface friction abrasion than hard chrome, especially in lubricated conditions.
“Electroless” means that no electrodes need to be attached for the coating process, therefore no areas are excluded in coating.
If the coating is damaged by excessive wrenching, corrosion remains localized to the damaged spot; corrosion will not extend between the coating and the substrate.
Maintains an identical surface profile prior to coating, ensuring the same smoothness is achieved as the substrate material used.
Metals that can be coated include carbon steel, stainless steel, aluminum, titanium, brass, copper, zinc and alloys (such as Inconel).
No machining required after coating and no grinding of weld seams prior to coating saves on time and cost.
