Hot New Products Locally Available - Ceramic ball valve – Mets
Hot New Products Locally Available - Ceramic ball valve – Mets Detail:
Product description
Ceramic Ball Valve:
Ceramics withstand severe abrasion. Offering as much as 30X that of alloy materials.
Process media is prevented from contacting alloy body that is fully lined with structural ceramics.
Ceramics are nearly universally chemical resistant.
Full control options, including 4-20mA positioner and actuator.
Multiple ANSI and DIN flange standards available. ANSI 150, 300 and 600 classes are also available.
Ceramic seat materials are selected on an application basis. Options include Alumina, Zirconia, Silicon Carbide, and others.
Seat and Ball are lapped together in matched sets to insure positive sealing.
Materials are selected on an application basis. Options include Super Duplex Stainless Steel, Hastelloy, Stainless Steel, Cast steel and others.
About installation
Performance data
Product detail pictures:
Related Product Guide:
Our company insists all along the quality policy of "product good quality is base of enterprise survival; buyer fulfillment will be the staring point and ending of an company; persistent improvement is eternal pursuit of staff" and also the consistent purpose of "reputation very first, shopper first" for Hot New Products Locally Available - Ceramic ball valve – Mets, The product will supply to all over the world, such as: New Orleans, Munich, Norway, In order to make more people know our products and to enlarge our market, we have devoted a lot of attention to technical innovations and improvement, as well as replacement of equipment. Last but not the least, we also pay more attention to training our managerial personnel, technicians and workers in planned way.
By Cheryl from Bolivia - 2018.06.09 12:42
This company has the idea of "better quality, lower processing costs, prices are more reasonable", so they have competitive product quality and price, that's the main reason we chose to cooperate.
By Fanny from Moldova - 2018.03.03 13:09