Buffing Wheel is made of finely cotton cloth by
special technology and is the precision polishing tools of metal and
non-metallic workpieces,It is made of mutillayers
100% cotton cloth sewn surround by the center,with a leather lip attached
around the inner hole. High quality material,
exquisite workmanship, long service life.Specially used for
polishing jewelry, ornaments, or precise products.
The layers of cloth edge
with pile processing,suitable for metal, jewelry hardware,stainless steel,
aluminum products, wood, plastic, ceramic, glass and watch industry grinding
and polishing.
Working with polishing
wax polishing effect is better.
Treated Buffing Wheels have a special chemical added to the
cotton which gives them more aggressive cutting action allowing them to work
faster than standard cotton spiral sewn buffing wheels. The chemical treatment
also gives these buffs a longer lifespan.
Treated buffing wheels can be used in place of Cotton Spiral
Sewn buffing wheels for cutting and coarse buffing.
Features:
-- Suitable for Metal,
jewelry, metal, stainless steel, aluminum, wood, plastic.
-- Surface of the
ceramic, glass and watches industry grinding and polishing.
-- Use with polishing wax
polishing better.
-- Can be stacked onto
tapered spindles for required thickness.
We distributes and wholesales various brands of Bonded Abrasives, Abrasive Sanding Disc, Cutting Wheels , Flap Wheels , Flap Disc Backing Pad, Flap Disc Adhesive , and Surface Conditioning Product etc, and enjoy a high position among consumers.
Cotton Buffing Wheels,Buffing Wheels,Polishing Wheel,Cut Off Wheels Zhengzhou Jiading Abrasive Manufacturing Co.,Ltd , https://www.jiadingabrasive.com
Figure 1 shows the 50t vulcanizer plug valve body produced by our factory. In order to ensure the hole depth accuracy of the end hole φ16118×(?)8_(0.04)~, it is necessary to repeat the processing multiple times, which is time consuming and troublesome. To this end, we have designed a simple device for tracking the depth of the hole according to the lathe structure (Fig. 2).