TREATMENT COATING BEARING

Brand Owner Address Description
MOTIONCOAT High Tech Coatings GmbH Dr.-Mitterbauer-Strasse 3 Laakirchen A-4663 Austria Treatment and coating of bearing surfaces by means physical vapor deposition processes; metal coating by means of physical vapor deposition coating; application of coatings using physical vapor deposition techniques; application of wear resistant coatings to engineering components by means of physical vapor deposition and polymer coatings; custom manufacture of machines and tools with a protective surface coating; treatment and coating of metal surfaces and engine parts, by means physical vapor deposition processes;Metal sputtering targets; sputtering targets of metal; metal alloys for use in the manufacture of metal sputtering targets; galvanized steel; common metals and their alloys;MOTION COAT;Polymer coatings, namely, polymer-based coatings for engine and transmission parts; polymer solutions, namely, polymeric additives for use in the manufacture of coatings; polymers and polymeric additives for enhancing the performance of lubricants; chemical coating agents, namely, polymer based compositions used for functional coatings for industrial goods;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A coating device (10) for coating a metal strip (12) in a metal melt (14) includes a shaft (16,18) that is rotatable in the metal melt (14) for guiding the metal strip (12), and a slide bearing (261, 262) for supporting the shaft (16,18). The slide bearing (261, 262) is formed by a bearing housing (32) and a bearing bushing (34) that has several pairs (361-364) of bearing surfaces and is configured so as to be circumferentially closed. The bearing bushing (34) is adapted to be set in selected rotational positions in circumferential direction in the bearing housing (32). A releasable bearing bushing fixing element (40) locks the bushing in each of the selected rotational positions with respect to the bearing housing (32). Thereby, a worn pair (361-364) of bearing surfaces can be simply replaced by a non-worn pair (361-364) of bearing surfaces by a rotation of the bearing bushing.