Audited Supplier
Water, Air, Gas
Ceramic
Flange
Air
Pn10~Pn50/150lb~300lb
API Standard
Flange Connection
Wear Resistant Ceramic
Standard Ceramic Ball Valve
High Temperature, Low Temperature, Medium Temperat
7/24 Online Service
Industrial Usage
Pneumatic
-40~180°c
Standard Ceramic Ball Valve
DN15~DN250
Pn10~Pn50/150lb~300lb
ASME B16.5/Hg/DIN/JIS
Ceramic Valve
Ball Valve
Pneumatic Ceramic Ball Valve
Stainless Steel Flange Type Full Lined Ceramic Bal
no
Box
customized
Haining
Product Description
The Exceptional Characteristics of Ceramic Materials
Temperature Stability: Industrial ceramics exhibit remarkable thermal stability, possessing a thermal expansion coefficient that is merely a quarter of that found in aluminum alloy materials and half of the coefficient in other metal materials. This distinct characteristic ensures enduring performance even in the face of extreme temperature variations, making them the ideal choice for precision applications.
Thermal Compatibility: With a thermal expansion coefficient closely matching that of ceramic guide granite material worktables, these ceramics support optimal temperature compensation, enhancing the precision of machine operations. Anti-aging Stability: Industrial ceramics boast almost non-existent internal stress release, allowing them to achieve what is known as a "quasi-steel model," thereby ensuring longevity and reliability in even the most demanding environments.
Stiffness to Mass Ratio: Industrial ceramics exhibit an exceptionally high stiffness to mass ratio, standing at an impressive 5 times greater than aluminum alloys and 6 times more than granite. This unparalleled characteristic empowers machines with superior dynamic responsiveness, ensuring efficient and precise operations across various applications.
Temperature Stability: Industrial ceramics exhibit remarkable thermal stability, possessing a thermal expansion coefficient that is merely a quarter of that found in aluminum alloy materials and half of the coefficient in other metal materials. This distinct characteristic ensures enduring performance even in the face of extreme temperature variations, making them the ideal choice for precision applications.
Thermal Compatibility: With a thermal expansion coefficient closely matching that of ceramic guide granite material worktables, these ceramics support optimal temperature compensation, enhancing the precision of machine operations. Anti-aging Stability: Industrial ceramics boast almost non-existent internal stress release, allowing them to achieve what is known as a "quasi-steel model," thereby ensuring longevity and reliability in even the most demanding environments.
Stiffness to Mass Ratio: Industrial ceramics exhibit an exceptionally high stiffness to mass ratio, standing at an impressive 5 times greater than aluminum alloys and 6 times more than granite. This unparalleled characteristic empowers machines with superior dynamic responsiveness, ensuring efficient and precise operations across various applications.
