Eclipse for Cookware
Eclipse is a three-coat, high cure, internally reinforced, nonstick system engineered to outlast other internally reinforced coatings. It is different from all other nonstick coatings in that the basecoat contains a carefully chosen and blended combination of resins and unusually hard materials, permitting a far higher percentage of special reinforcing elements than normal. The mid-coat, actually a basecoat used in other Whitford reinforced systems, also contains the special reinforcing elements, while the topcoat is rich in fluoropolymers, and is dedicated entirely to "release" (the nonstick characteristic).
All tests show startling results. On the reciprocating abrasion test, one of the harshest abuse tests, the toughest internally reinforced coating previously tested reached 20,000 cycles — while Eclipse has gone beyond 700,000 cycles.
Eclipse High-Build for Cookware
Eclipse has long been known for its remarkable ability to withstand the abuse and wear typical of the average kitchen today.
Now Whitford Research and Development technicians have improved the original coating to a degree well beyond that of all competitive internally reinforced coatings tested in all of Whitford’s Laboratories.
Other advantages of Eclipse HB
The coating complies with all United States and European food-safety regulations.
It can be applied up to 60 microns with no mud-cracking (most nonstick systems mud-crack if applied over 40 microns).
Heavily reinforced systems tend to settle, and can be hard to spray. But new Eclipse HB stays in suspension, does not settle and sprays easily.
Eclipse for Bakeware
Eclipse for Bakeware is a 2-coat, low-cure, internally reinforced nonstick system engineered to outlast other internally reinforced bakeware coatings. It is different from all other nonstick coatings in that the basecoat contains carefully chosen and unusually hard materials, permitting a far higher percentage of special reinforcing elements than normal. The outstanding release is provided by silicone, not PTFE. This system is ideal for aluminum and phosphated carbon-steel substrates.
Eclipse for Cookware
Eclipse is a three-coat, high cure, internally reinforced, nonstick system engineered to outlast other internally reinforced coatings. It is different from all other nonstick coatings in that the basecoat contains a carefully chosen and blended combination of resins and unusually hard materials, permitting a far higher percentage of special reinforcing elements than normal. The mid-coat, actually a basecoat used in other Whitford reinforced systems, also contains the special reinforcing elements, while the topcoat is rich in fluoropolymers, and is dedicated entirely to "release" (the nonstick characteristic).
All tests show startling results. On the reciprocating abrasion test, one of the harshest abuse tests, the toughest internally reinforced coating previously tested reached 20,000 cycles — while Eclipse has gone beyond 700,000 cycles.
Eclipse High-Build for Cookware
Eclipse has long been known for its remarkable ability to withstand the abuse and wear typical of the average kitchen today.
Now Whitford Research and Development technicians have improved the original coating to a degree well beyond that of all competitive internally reinforced coatings tested in all of Whitford’s Laboratories.
Other advantages of Eclipse HB
- The coating complies with all United States and European food-safety regulations.
- It can be applied up to 60 microns with no mud-cracking (most nonstick systems mud-crack if applied over 40 microns).
- Heavily reinforced systems tend to settle, and can be hard to spray. But new Eclipse HB stays in suspension, does not settle and sprays easily.
Eclipse for Bakeware
Eclipse for Bakeware is a 2-coat, low-cure, internally reinforced nonstick system engineered to outlast other internally reinforced bakeware coatings. It is different from all other nonstick coatings in that the basecoat contains carefully chosen and unusually hard materials, permitting a far higher percentage of special reinforcing elements than normal. The outstanding release is provided by silicone, not PTFE. This system is ideal for aluminum and phosphated carbon-steel substrates.
