Discountable price Zirconia Alumina Composite Beads - Self-lubricating Ceramic Shaft and Shaft seal – SEM Detail:
Product production steps
Advantages
Not only strong hardness (≥HV0.5N1300), excellent wear resistance, light weight
The material itself has high temperature resistance of 1600℃, corrosion resistance, no expansion (between 100-800℃), can be used in strong acid and alkali, high temperature and other environments
No magnetic, no dust absorption, low noise, and excellent self-lubrication characteristics
Application Introduction
High speed digital motor and ordinary high-speed motor.
All kinds of brushless motor pumps.
All kinds of motors with high resistance of temperature, acid, and alkali environment.
Tech specs
Main components: | Coffee-colored ceramic base self-lubricating composite materials |
Hardness: | ≥HV0.5N1300 |
Bending strength: | 330MPa |
Compressive strength: | 3000GPa |
Operating temperature: | 1000℃ |
Size and shape: | Dimensions and machining accuracy can be customized |
Note: As products are constantly updated, please contact us for latest specifications.
Applicable Industry
Product detail pictures:
Related Product Guide:
Our primary intention should be to offer our clientele a serious and responsible enterprise relationship, delivering personalized attention to all of them for Discountable price Zirconia Alumina Composite Beads - Self-lubricating Ceramic Shaft and Shaft seal – SEM, The product will supply to all over the world, such as: Manchester, Mexico, Mombasa, we sincerely hope to establish a good and long-term business relationship with your esteemed company through this opportunity, based on equality, mutual benefit and win-win business from now to the future. "Your satisfaction is our happiness".
By Rigoberto Boler from Greece - 2017.08.16 13:39
The company keeps to the operation concept "scientific management, high quality and efficiency primacy, customer supreme", we have always maintained business cooperation. Work with you,we feel easy!
By Ophelia from Costa rica - 2018.11.28 16:25