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Die
Casting Alloys
Die casting alloys are normally non-ferrous, and there is a
large number available with a wide range of physical and mechanical properties covering
almost every conceivable application a designer might require.
Aluminum and zinc alloys are the most widely used, and are
followed by magnesium, zinc-aluminum (AZ) alloys, copper, tin and lead.
Zinc, lead and tin based alloys are classified as low melting
point metals, all melting at less than 725oF (385oC). Zinc-aluminum
(ZA) alloys have a slightly higher melting range of 800oF to 900oF
(426oC to 482oC). Aluminum and magnesium alloys are considered to be
moderate melting point alloys, being cast in the 1150oF to 1300oF
(621oC to 704oC) range. Copper alloys are considered to be high
melting pint, over 1650oF (899oC). Low melting point alloys are cast
in hot chamber machines. Intermediate and high melting point alloys are cast in cold
chamber machines. In recent years, specially designed hot chamber machines for die casting
magnesium alloys have come into use. Back to Top
Aluminum Alloys
Aluminum die casting alloys (Table
1) are lightweight, offer good corrosion resistance, ease of casting, good
mechanical properties and dimensional stability.
Although a variety of aluminum alloys made from primary or
recycled metal can be die cast, most designers select standard alloys listed below:
360 -- Selected for best corrosion resistance. Special
alloys for special applications are available, but their use usually entails significant
cost premiums.
380 -- An alloy which provides the best combination of
utility and cost.
383 & 384 -- These alloys are a modification of
380. Both provide better die filling, but with a moderate sacrifice in mechanical
properties, such as toughness.
390 -- Selected for special applications where high
strength, fluidity and wear-resistance/bearing properties are required.
413 (A13) -- Used for maximum pressure tightness and
fluidity. Good for corrosion resistance.
Back to Top
Zinc
Alloys
Zinc base alloys (Table
2) are the easiest to die cast. Ductility is high and impact strength is
excellent, making these alloys suitable for a wide range of products. Zinc alloys can be
cast with thin walls and excellent surface smoothness making preparation for plating and
painting relatively easy.
It is essential that only high purity (99.99 + 0/0) zinc
metal be used in the formulation of alloys. Low limits on lead, tin and cadmium ensure the
long-term integrity of the alloy’s strength and dimensional stability. Back to Top
Zinc-Aluminum
(ZA) Alloys
ZA alloys represent a new family of zinc based die casting
materials which contain higher aluminum content than standard zinc alloys. These alloys
provide high strength characteristics plus high hardness and good bearing properties (Table 2). Thin wall castability
characteristics and die life are similar to zinc alloys. ZA-8 is recommended for hot
chamber die casting, which ZA-12 and ZA-27 must be cast by the cold chamber die casting
process. All ZA alloys offer similar creep properties and are superior to standard zinc
alloys.
ZA-8 -- Provides strength, hardness and creep
properties.
ZA-12 -- Provides excellent bearing properties with
strength and hardness characteristics between ZA-8 and ZA-27, plus good dimensional
stability properties and somewhat better castability than ZA-27.
ZA-27 -- Offers the highest mechanical properties of
the ZA family and is, therefore, recommended when maximum performance is required. Back to Top
Magnesium
Alloys
Magnesium alloys (Table
3) are noted for low weight, high strength to weight ratio, exceptional
damping capacity, and ease of machining. Casting temperatures are about the same as
aluminum, and both hot chamber and cold chamber machines are used to produce castings.
Casting rates for magnesium are high because of its low heat
content which produces rapid solidification. For the same reason, less energy is required
to heat the metal to casting temperature.
AZ91HP (high purity) alloy has been developed for die casting
parts subject to corrosive environments. Because of lower levels of nickel, iron, copper
and silicon versus AZ91B, this alloy is finding applications in automobiles, computers and
peripheral equipment, and in other applications where paint or coatings are either
undesirable or expensive.
Although magnesium die castings are used uncoated, they can
be finished in a variety of ways to give increased protection against corrosion, wear and
abrasion resistance, and to improve appearance. Common inorganic treatments include
chemical dips, anodizing and plating. Organic coatings -- oil, wax, resin or paint -- are
usually applied over chemical treatments or anodizing to seal the surface, increase
corrosion protection and provide an attractive appearance. Back
to Top
Copper
Alloys
Copper base alloys (Table
4) are generally known as brass or bronze. They provide the highest
mechanical properties of any of the normally die cast metals. Brasses have high strength
and toughness, good wear resistance, and excellent corrosion resistance. Dimensional
stability is excellent. Of the various brass casting alloys available, alloy Z30A is used
for the majority of die casting applications. Back to Top
Lead
and Tin Alloys
Lead and tin alloys enjoy only minor use in die casting since
their strengths are low. Lead die castings find applications where high density (wheel
weights) or corrosion resistance (plumbing goods) is needed. Tin may be found in small
parts where extremely close dimensional tolerances are needed, or where contact with food
or certain chemicals may be encountered. Back to Top
Relative
Alloy Weights to Magnesium
| Aluminum |
1.6 |
| Zinc |
3.7 |
| ZA Alloys |
2.7-3.4 |
| Magnesium |
1.0 |
| Brass |
4.7 |
| Tin |
4.0 |
| Lead |
6.3 |
| Bronze |
4.9 |
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