Coating processes – Interior of hollow article coating – Metal base
Patent
1997-08-05
1999-11-23
Beck, Shrive
Coating processes
Interior of hollow article coating
Metal base
427282, 427402, 4274192, 4274195, 205171, 205172, 205221, B05D 722, B05D 136, C25D 1104
Patent
active
059896310
DESCRIPTION:
BRIEF SUMMARY
The invention relates to a process for equipping a kitchenware object, for example a pan, a pot or the like, comprising metal, for example aluminum, an aluminum alloy, magnesium or a magnesium alloy and/or copper alloy, with an anti-adhesion coating system in the stressed surface regions, for example on the inside, which, for example after roughening, comprises a layer of a mechanically-resistant material such as a mechanically-resistant anodization layer or similar anodization layer, and an anti-adhesion layer, comprising for example a fluorocarbon resin, such as polytretafluoro [SIC] ethylene (PTFE), tetrafluoro ethylene-hexafluoro propylene copolymer (FEP) or tetrafluoro ethylene-ethylene copolymer (ETFE), thereby that before providing the layer of mechanically-resistant material a surface layer is applied onto the surface regions of the kitchenware object not to be provided with the anti-adhesion coating system and subsequently the layer of mechanically-resistant material is provided as an anodically-generated conversion layer.
Such process is disclosed in GB-A-1 069 168. From it is evident that in the production of a test pan initially in a partial region of the pan body a protection coat is provided while the exposed metal surface region is provided with an intermediate oxide layer. For demonstration purposes, a partial region of this intermediate oxide layer again is provided with a protection coat while the exposed intermediate oxide layer is provided with an additional resin layer. After stripping off the two protection coats, the different surface properties of the untreated metal surface of the metal surface provided only with one intermediate oxide layer and the smooth surface provided additionally with a resin layer can be demonstrated.
According to a process disclosed in DE-B-1 546 934 and EP-A-0 424 072, kitchenware objects, such as pans, pots, roasters or the like, to some extent for increasing the scratch and wear resistance on their stressed inside, are provided with layers comprising mechanically-resistant material in combination with anti-adhesion layers. In the case of aluminum or magnesium alloys one possibility for applying a layer comprising mechanically-resistant material is the anodic oxidation according to DE-A-3 244 217. As a rule, the object to be anodized for this purpose must be immersed in an acidic electrolyte bath while electrically connected and subsequently coated in the current flow with a conversion layer. In this process the entire object is provided on the inside as well as on the outside with the layer of mechanically-resistant material.
In DE-A-3 806 699 is disclosed a process for coating household objects, in which the basic metal body is initially provided with a foundation adhesion layer, for example comprising nickel-aluminum or chromium-nickel. Onto this foundation adhesion layer is applied a layer comprising a mechanically-resistant material, for example comprising aluminum oxide or a mixture of aluminum oxide and titanium oxide is applied. Subsequently, the layer comprising the mechanically-resistant material is provided with an anti-adhesion layer, for example based on polytetrafluoro ethylene (PTFE). Each of the particular layers is therein sprayed onto the frying surface. In this process the optical quality of the surface is said to be retained compared to prior known coating processes and that simultaneously the loadability of the layer is further increased.
DE-C-3 604 762 also discloses a process for coating kitchen containers, in which the surface is initially provided in the plasma spraying process with a foundation adhesion layer comprising nickel-aluminum or chromium-nickel, subsequently during the plasma spraying process onto the foundation adhesion layer a layer comprising a mechanically-resistant material of aluminum oxide or aluminum oxide/titanium oxide is applied, furthermore onto the layer of mechanically-resistant material [of: SIC] an anti-adhesion layer is applied and lastly the anti-adhesion layer is burned in. The foundation adhesion lay
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Barr Michael
Beck Shrive
Fissler GmbH
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