Upgraded geometries for improved performance and longer tool life
Lines expanded with new sizes and radius sizes
New range of tools with internal coolant capability
Following market demand, ISCAR is upgrading the EC-H4L, EC-H5M and ECP-H4L chatter free
solid carbide endmill lines by updating the tool dimensions, expanding the range of radius sizes,
and adding new tools with internal coolant capabilities.
The following endmill lines are recommended for alloy steel (up to 54 HRc), stainless steels, HRSA
and cast irons:
EC-H4L - Suitable for shouldering applications and slotting up to 1.5xD. Also available
with central coolant hole for fluent chip evacuation, especially in pocketing operations.
EC-H5M - Suitable for shouldering applications with a maximum axial depth of cut 2xD.
Also available with a central coolant hole for easy chip evacuation, especially in pocketing operations.
ECP-H4L with chip breakers - Suitable for shouldering applications and slotting up to 2xD axial depth of cut.
ECP-H5L with chip breakers - Suitable for shouldering applications up to 2xD and slotting up to 1xD.
The old versions of these tools will be phased out and replaced by new items, which will be phased
in as soon as the existing inventory is depleted.
Please see the new catalog information of the updated families: EC-H4L-CFR (relieved neck)
4 Flute Endmills with 3xD Relieved Neck, Assorted Radii, Different Helix and Variable Pitch for Chatter Dampening
(1) Number of flutes (2) Maximum ramping angle (3) C-Cylindrical, W-Weldon (4) 0 - Without coolant supply, 1 - With coolant supply
EC-H5M-CFR
5 Flute Endmills with Different Helix and Variable Pitch for Chatter Dampening with Assorted Radii
(1) Number of flutes (2) Maximum ramping angle (3) C-Cylindrical, W-Weldon (4) 0 - Without coolant supply, 1 - With coolant supply
ECP-H4L-CFR
4 Flute Solid Carbide Endmills with Different Helix, Variable Pitch and Chip Splitting Cutting Edges for Roughing
(1) Number of flutes (2) C-Cylindrical, W-Weldon
ECP-H5L-CFR
5 Flute Solid Carbide Endmills with Different Helix, Variable Pitch and Chip Splitting Cutting Edges for Roughing