COMBI GET CHOC BLOCKS
Features
Title | COMBI GET CHOC BLOCKS |
Type | Machinery Attachments |
Sub Type | Miscellaneous |
Make | COMBI GET |
Model | CHOC BLOCKS |
Sale Price | POA |
Listing Type | New |
Stock Number | 1610 |
RefCode | TA1111594 |
Description
Brand: Combi GET
Title: Choc Blocks
Protect those hard to reach places where abrasion can occur.
The unique, formable design of chock blocks and wear buttons are available in various lengths and sizes. Applications for these are wide and varied, ranging from specific wear protection on buckets for loaders, excavators and dragline machines, or for weld-on hammer tips for the recylcing industry, or chute linings and rock box edges. Easy to use and install, they can be bent, cut and formed to suit different surfaces at a price that doesnt hurt your back pocket.
Size: 240 mm length (all)
Thickness: 25 - 130 mm (range of widths)
Section Materials: Chrome carbide section, Base Mild Steel (others avail. on request)
Hardness: 62 - 64 (Rockwell)
Features: High grade overlay|Versatile|Cost effective
Chrome carbide, Rockwell 62 - 64 for long life.|Can be formed or cut to protect critical locations.|Protect parent material without high maintenance costs.
Title: Choc Blocks
Protect those hard to reach places where abrasion can occur.
The unique, formable design of chock blocks and wear buttons are available in various lengths and sizes. Applications for these are wide and varied, ranging from specific wear protection on buckets for loaders, excavators and dragline machines, or for weld-on hammer tips for the recylcing industry, or chute linings and rock box edges. Easy to use and install, they can be bent, cut and formed to suit different surfaces at a price that doesnt hurt your back pocket.
Size: 240 mm length (all)
Thickness: 25 - 130 mm (range of widths)
Section Materials: Chrome carbide section, Base Mild Steel (others avail. on request)
Hardness: 62 - 64 (Rockwell)
Features: High grade overlay|Versatile|Cost effective
Chrome carbide, Rockwell 62 - 64 for long life.|Can be formed or cut to protect critical locations.|Protect parent material without high maintenance costs.