Raw material production method – Sandvik Coromant Heat resistant super alloys User Manual

6

S05F

GC1105

GC1105

S05F

3.5 min

Hard material

Soft material

7 min

6 min

12 min

Comparison of wear depending upon
material hardness and insert grade

CNMX 1204A1-SM – v

c

50 m/min, f

n

0.25 mm/r, a

p

1.5 mm

Raw material production method

Depending upon the size, shape and
strength requirements of the component,
various production methods for the blank
material will be adopted.

The production method varies the machina-
bility of the material and will change the
wear characteristics.

Material

Forging

large

medium

Casting

complex shape

poor

Bar stock

<200 mm diameter

good

Components

Advantage/suitability

Machinability

high strength

low strength

availability/strength

Each of these raw material types directly
affects the alloy’s micro structure, and so
also affects the subsequent machining
behaviour:
Forged materials have a finer grain size
than in castings, which improves the
strength and grain flow of the component.
When machining forgings, reducing the
speed and increasing the feed generally
gives the maximum possible metal removal
rate with good tool life.
In castings the opposite applies, and apply-
ing low feeds (0.1 mm chip thickness) and
higher speeds can be beneficial. Castings
have poor machinability and tend to be

most sensitive to notch wear and abrasive
wear. They can be easily identified due to
their visibly mottled surface (the ‘orange
peel’ effect).
Bar stock material is the easiest form of
raw material to deal with. Notching is not
so much of a problem, which allows harder
and more wear resistant insert grades to
be used than for forgings.

Chip hammering