The document discusses two main forging processes: open die forging and closed die forging. Open die forging uses simple flat dies and is used for large or low volume parts. Closed die forging uses carefully machined matching dies to produce parts to close tolerances. The process involves preforming billets, rough forging in blocking dies, finishing in final dies, and trimming flash. Closed die forging produces parts with good dimensions and properties but requires high die costs for small volumes.
3. 1) Open Die Forging1) Open Die Forging
ïOpen die forging is carries out between two flat
dies or simple shapes.
ïThis process is used mostly for large objects
and smaller quantities.
ïIt is also used to preform the work piece for
closed die forging.
5. 1) Open Die Forging1) Open Die Forging
Advantages
Simple, inexpensive dies; wide
range of sizes; good strength
Limitations
Simple shapes only; difficult to
hold close tolerances;
machining necessary; low
production rate; poor utilization
of material; high skill required
6. 2) Closed Die Forging2) Closed Die Forging
ïThe work piece is deformed between two
die halves which carry the impressions
of the desired final shape.
ïIt uses carefully machined matching die
blocks to produce forgings to close
dimensional tolerances.
ïNormally used for smaller components
8. 2) Closed Die Forging2) Closed Die Forging
ïThe basic steps in Closed die forging:
1) The Billet is usually Fullered (reduce the
cross sectional area) and Edged (shape
the ends and gather metal) to use the
metal for subsequent forging.
9. 2) Closed Die Forging2) Closed Die Forging
2) The pre-shaped billet is placed in the cavity of
the blocking die and rough â forged to the final
shape. The greatest change in the shape of the
metal occurs in this step.
3) The part is transferred to the finishing die to
forge to get final shape and dimensions.
4) Removal of Flash with a trimming die.
Forging dies must be tapered to facilitate removal of
the finished part. This draft allowance is approximately 5O
for steel forgings.
10. 2) Closed Die Forging2) Closed Die Forging
âą Flash
When the dies come together for the finishing
step, the excess metal squirts out of the cavity
as a thin ribbon of metal called Flash.
In order to prevent the formation of a very wide
flash, a flash gutter is provided.
11. 2) Closed Die Forging2) Closed Die Forging
ïPurposes of Flash
âą Flash regulates the escape of metal and thus
thin flash increases the flow resistance of the
system so that the pressure builds up to high
values to ensure that metal fills all recesses of
the die cavity.
âą Flash acts as a âsafety valveâ for excess metal
in the closed die cavity.
12. 2) Closed Die Forging2) Closed Die Forging
ïForging pressure increases with decreasing
flash thickness and increasing flash width.
13. 2) Closed Die Forging2) Closed Die Forging
ïEffective forging operation requires an
understanding of,
âą Flow stress of the material
âą Frictional conditions
âą Metal flow in order to develop the optimum
geometry for the dies.
ï Metal flow consists of two basic types,
âą Extrusion â Flow parallel to the direction of the die motion
âą Upsetting â Flow perpendicular to the direction of the die
motion
14. 2) Closed Die Forging2) Closed Die Forging
âą Closed die design:
The design of a part for production by closed die
forging involves the prediction of,
âą Work piece volume and weight
âą Number of preforming steps and their
configuration
âą Flash dimensions in preforming and finishing
dies
âą The load and energy requirement for each
forging operation
15. 2) Closed Die Forging2) Closed Die Forging
Advantages
Good utilization of material; better
properties than open die forging;
good dimensional accuracy; high
production rate; good
reproducibility
Limitations
High die cost for small quantities;
machining often necessary
16. 2) Closed Die Forging2) Closed Die Forging
âą Example : Die set and forging steps for the
manufacturing of Automobile engine connecting
rod: