Views: 0

  • Ordinary Member
  • View on your phone
Business mode
production
Production mode
-
Industry chain role
Country / Region
Zibo, Shandong, China
Established
2017-08-18
No. of employees
-
Company address
High tech Zone, Zibo City, Shandong Province
Map
Company Tel 132*****599
官网地址 http://w******a.com

Professional designed ceramic grinding media for ultra fine grinding, Roshine have years of experience in the production and selling. The wide of production range, high aluminum ball, zirconium ball, Zirconium silicate beads, alumina lining bricks, ensure us meet your demand in all of situation of the milling process.
Roshine is engaged in production of different ceramic grinding media for mining industry, ceramic industry, paint, pigments ,cosmetics and coating industry, and so on. Considering different slurry solid content and material hardness, we are glad to provide different grinding media for different use conditions. It is our obliged aim help our customers improve the grinding efficiency and save energy cost.
Welcome to Roshine at any time! We are ready here, offering you with right products and services, achieving our best value.

Contacts

Supplier Products

View all products

Main products

Zirconia Ball Alumina Balls Wear-resistant Ceramic Lining Brick Wear-resistant Ceramic Liner Wear-resistant Ceramic Lining Wear-resistant Ceramic Roller 氧化铝球系列 氧化锆研磨球 微晶耐磨陶瓷件 陶瓷辊棒及其他产品 锆钼复合球系列
SVG

Production Capacity

Factory address -
Factory area -
No. of production staff -
No. of R&D engineer -
No. of QC staff -
Maximum capacity -
SVG

Markets

Chemical & Metallurgy
Equipment & Machinery
Auto & Transportation
Medical & Biology
SVG

Trade Capacity

Mode of transport
Payment Methods
Average lead time -
No. of trade staff -
Main sales market worldwide
SVG

Advantage of technology

Raw materials Powder preparation
Alumina(Al2O3) -
Molding Sintering process
- -
Precision machining Surface treatment
- -

Zibo Roshine Ceramic Technology Co., Ltd.

This supplier is a CERADIR® ordinary member

Image Description
Image Description