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This article was first published in 2008.
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Last week in
Metal Casting, Part 2 we
saw how a sand mould for an aftermarket inlet manifold was formed. Now it’s time
to watch the pouring of the aluminium and then see the results. As with the
previous parts in this series, the work was being done at the Matilda Foundry in
Maryborough, Queensland. The casting is a Funnelweb 2V 351 Ford V8 inlet
manifold by Parker Racing.
The aluminium is melted down from ingots. The
aluminium most often used by this foundry for sand casting is AA601 (US standard
351). This material can be heat treated and machines well.
The ingots are melted in either a gas furnace
(pictured) or an electric furnace. A layer of oxide floats on top; it insulates
and keeps the air from the molten alloy.
The temperature of the molten alloy is directly
measured with a thermocouple. It needs to be at about 710 degrees C.
What look like oversize soup ladles are used to
transfer the molten alloy from the furnace to the mould. With a casting of this
size, two pourers are used; they time their pour with a countdown so that both
mould runners are filled simultaneously.
Ceramic filters have previously been placed in the
runners, preventing any impurities from passing into the casting. The filters
also reduce the inclusions of air causing the formation of aluminium oxides.
The mould is filled to the top of the risers and
runners, the molten material actually forming an inverted meniscus at the
surface. A special powder called Feedex is then placed over the exposed
aluminium; this keeps it from the air and also...
...as it burns, keeps the riser material from
freezing before the casting has solidified. (This allows the riser to feed
material to the shrinking casting.)
The casting is left to cool and then fork-lifted
to an area where the sand mould can be broken off. The sand has become very hard
and is removed with a hammer...
..and pneumatic chisel. Note the sand falling out
of the space between the intake manifold runners.
The bare casting is given a quick onceover with a
sandblaster, primarily to remove the casting sand that would otherwise damage
the...
...bandsaw that is used to cut off the risers and
runners. This material is remelted in the furnace.
A die grinder is then used to remove the casting
flash – the thin edges of metal that show the parting line of the sand
mould.
The foundry’s work with the casting is then
finished – the casting is ready to go to the machine shop to be faced and have holes
drilled.
Die
Casting
In
this series we’ve covered sand casting – as its name suggests, castings made
with sand moulds. But another type of casting - called die casting - is often
used, especially of small parts required to be made in large numbers. Die
casting uses a two-part steel die.
Gravity
die casting uses a similar approach to sand casting in that the molten metal is
simply poured into the die. Pressure die casting injects the metal under
pressure.
Die
casting can achieve a better surface finish (the molten metal is in contact with
a smooth steel surface, rather than sand), can be dimensionally more accurate,
and yields little flash. Because of its cooling contact with the metal die,
small die castings can be removed only minutes after being poured. The dies are
configured with rollers, levers and hinges, allowing the die to be opened, the
solidified casting to be pushed out and then the die again closed, ready for
another pour.
Matilda
Foundry does some gravity die casting, usually in EA401 aluminium.
Examples
are this boat anchor (shown with its mould)...
...and
this fitting (formed in two parts) that is used to support the roof handrail in
trains.
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Conclusion
As has been seen from this series, developing the
pattern for (say) a new intake manifold isn’t the sort of thing that you whip up
overnight, get the sand mould made the next day and then have the finished
casting back at your house a day later!
However, knowing exactly how castings are produced
in small quantities opens up a range of possibilities that may never before have
occurred.
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