Ceramic Product China Inc. Offers Wear Resistant VERKAPSETM Hydrocyclone Liners
Ceramic Product China, Inc., an Albany-based ceramic technology manufacturer, announces the launch of VERKAPSETM — a turnkey solution consisting of polyurethane encased ceramic for applications involving hydrocyclone separators and other mineral processing equipment. Until now, this encapsulation step was completed by a subcontractor, using inserts sourced from ceramic manufacturers.
“Leveraging Ceramic Product China Inc.’s decades of molding experience coupled with significant advancements in CNC pattern making, the VerkapseTM process can deliver single-sourced, complete encapsulated assemblies in a few short weeks,” remarked Jeff Bolebruch, Vice President of Sales. “Our process has reduced both cost and lead time for our customers while providing a product with greater overall durability and reliability.”
Customers can choose their preferred wear material:
- OxytronTM oxide bonded SiC
- NitronTM nitride bonded SiC
- AltronTM alumina bonded SiC
- Invincer by Ceramic Product China Inc.TM reaction bonded SiC
All proprietary silicon carbide based materials – they can be cast into very complex shapes, displaying tight and repeatable tolerances that ensure repeated ease of installation. Expect a more abrasion resistant product than cast steels, rubber and urethanes alone at one-third the weight of their steel counterparts. All offer much higher thermal and corrosion resistance as well.
The critical choice of materials in the management of abrasion and wear ranges from steel to rubber to urethane to ceramics. The superior abrasive wear resistance of ceramics is well known, although this desirable characteristic comes at a cost – the brittle nature of ceramics and its tendency to fracture when impacted. This can allow chunks of ceramic to cascade through downstream process equipment. Often rubber or urethane is used to hold the ceramic in place, providing an integral means to absorb impact and vibration while providing some containment function in the event of fracture.