Solid carbide – coromill plura inhrsa machining, Solid carbide – coromill®plura in hrsa machining – Sandvik Coromant Heat resistant super alloys User Manual

87

Due to the high hot hardness and tough-
ness of HRSA they are one of the most
difficult to machine materials placing great
demands on the tool. The outcome is tradi-
tionally, low cutting speeds and hence lower
productivity/higher machining costs.
High speed machining (HSM) techniques
offer an effective way to increase productiv-
ity and to mill intricate and thin-walled com-
ponents. The high feed rates do not allow
as much heat to get transferred into the
component, due to the short contact time,
compared to conventional milling tech-
niques.

However low radial cuts are required to
keep the chip thickness small and allow for
the higher feed rate.

Solid carbide – CoroMill®Plura in HRSA machining

Feed faster than heat propagation.

Traditional milling, time for heat propagation.

Factor

Thin chip thickness
Small arc of engagement

Lower cutting force/deflection
Reduced temperature at

cutting zone

Effect

Benefit

Deeper axial cuts
Higher speeds

HSM uses high rpm and axial cut (a

p

) but with only small radial engagements (a

e

) and

feed per tooth (f

z

). This is possible due to:

This method requires a machine with high
spindle speed and high feed dynamics –
putting no extra demands upon rigidity.