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Green
sand molding is a process that combines the advantages of versatility,
productivity and low cost for the production of quality castings of any
metal that is castable. Because of the advent of high density molding,
using higher pressure automated molding machines, improved casting
dimensions have been obtained.
A simple test that has
replaced the "hand feel test" is the compactability test.
Compacted mold uniformity is a vital factor in achieving near-net-shape
casting production. The test can reduce mold-wall movement that could be
a prime cause of apparent shrinkage. The test is reported in percentage
and establishes a relationship between molding sand compaction
characteristics independent of its composition. Compactability simply
indicates the degree of temper or relative wetness of the molding sand
mixture. It provides a percentage number that can be related in quality
control an/or computer control programs. It is recommended that the
compactability test be performed at the mulling or mixing station for
quick control response of the governing factors and decision making.
The compactability test
determines the percentage decrease in height of a loose mass of sand
under the influence of compaction. The compactability molding values are
directly related to the performance of a molding sand mixture. If
controlled by some of the major conditions that affect the test, the use
of this could yield excellent casting finish and reduce cleaning.
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| Figure 1
Compactability Equipment |
THE COMPACTABILITY
TEST
Under constant
conditions, a riddled sample of tempered molding sand is compacted and
the percentage decrease in height is determined. The test closely
simulates the actual filing of a flask with molding sand and compaction
by a molding machine. It is independent of the specific gravity of the
sand, and is therefore superior to the bulk density test for measuring
degree of temper or determining the water requirements of a sand
mixture. Figure 1 indicates the equipment required to perform the
compactability test.
DO’S AND DON’TS
There are several
guidelines to remember when testing for compactability. These should be
strictly followed, as failure to do so can affect the results of the
test.
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Always lubricate
the specimen tube before testing.
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Be sure the strike
off blade is held perpendicular to the top of the specimen tube.
If not, it can pre-compact sand slightly.
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When transporting
or placing the sample tube into the rammer, do not jar it as this
could also pre-compact the sand.
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Lower the rammer
onto the specimen tube carefully.
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When ramming the
specimen do not go extremely fast or slow as this can affect the
degree of ramming. A guide here is to always pause at the 4
o’clock position between rams.
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Do not use
compactability specimens in other tests calling for 2" x
2" specimens.
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There are several
charts and scales available from vendors which have proven a
useful aid in compactability testing. Contact your supplier for
information on these.
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CONDITIONS THAT AFFECT
COMPACTABILITY
Control of compactability
can produce a uniformly dense mold. A firm mold can yield a
near-net-shape casting with an excellent surface finish as is shown in Figure
4.
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Figure
2
Expansion Scabs |
Figure
3
Hard Mold Penetration |
Figure
4 |
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|
Figure
5
Mechanical penetration |
Figure
6 Internal Shrink |
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HIGH COMPACTABILITY
COULD RESULT IN:
Figure 2 indicates
a problem that can be encountered with high compactability molding sand.
In this case the compacted sand is too dense and the result is an
expansion type defect termed a scab. Another result of high
compactability is shown in Figure 3. A very highly flowable sand
has produced a very dense mold resulting in "hard mold
penetration".
LOW COMPACTABILITY
COULD RESULT IN:
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Friable mold edges
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Crushes -
inclusions
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Hard to lift
pockets
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Mechanical
penetration
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Apparent shrinkage
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Cuts and washes
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Cope drops
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Oversize castings
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Rough surfaces
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Figure 5 shows a
result of low compactability. A stiff molding sand that resisted
compaction produced open voids in the mold and metal penetration
occurred. Shown in Figure 6 is an example of mold dilation due to
a soft mold which caused an oversized casting and metal shrinkage.
SUGGESTED READING
For those who are interested
in furthering their knowledge of this subject it is recommended that
they obtain copies of the following:
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AFS Publication, AFS
Mold and Core Handbook, 1989 ed.
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F. Hoffman, H.
Dietert, A. Graham, Compactability Testing, A New Approach in Sand
Research, AFS Transactions 1969.
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A Volkmar, A Basic
System Sand Control Procedure, AFS Transactions 1973.
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C. Wenninger, A.
Volkmar, A New Control Tool: A Graph for Evaluating Effectiveness of
Available Bentonite Within Foundry Sand Systems, AFS Transactions
1970.
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A. Volkmar, System
Sand Control by Compression vs. Compactability Testing, AFS
Transactions 1970.
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J. Herivel,
Compactability for Production Control, H. W. Dietert Company.
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