EP1584698A1 - Zinc cast alloy having high strength and good casting properties - Google Patents

Abstract

Zinc cast alloy produced from recycled zinc comprises alloying additions (in wt.%) of 3.5-7 copper, 3.5-5 aluminum and 0.025-0.05 magnesium.

Description

The invention relates to a zinc casting alloy. such Alloys are used for cost-effective production of heavy-duty components used, for example used in the field of drive or connection technology become. In particular, the Interchangeability of components particularly high Requirements made.

A zinc casting alloy known under standard designation Z410 (ZnAl4Cu1) commonly used for die casting has (in% by weight) 0.4-1.1% Cu, 3.5-4.3% Al, 0.02-0, 06% Mg and balance zinc and unavoidable impurities. The impurities include (in% by weight) up to 0.05% Fe, max. 0.005% Cd, max. 0.005% Pb, max. 0.002% Sn, max. 0.02% Ni and max. 0.03% Si. The sum of all impurities is limited to less than 0.027 wt .-%. The known zinc casting alloy achieves tensile strengths of _220-260 N / mm ² , a yield strength R _p0.2 of _170-200 N / mm ² , an elongation at break A5 of _0.5-2 %, a hardness HB of 85-105 and bending fatigue strengths. which at 20 x 10 ⁴ load changes 70 - 100 N / mm ² amount.

Practical experiences show that they are always on increasing demands on the mechanical load capacity of components with the known Z410 alloy not let fulfill. This is especially evident when made of the known alloy, outdoors Components used in every season parts Be subjected to alternating loads. Especially with special low temperatures as they occur in winter the known alloy proves to be insufficient Unbreakable. The same applies at particularly high temperatures, to which the components in question are heated when they exposed to direct intense sunlight in the summer are.

The problems described above could not be solved in principle by using a higher alloyed zinc casting alloy, which is available on the market under the name Z430 (ZnAl4Cu3). This alloy has an increased copper content compared to the Z410 alloy with otherwise equal contents of Al, Mg and impurities, which may be 2.5-3.2% by weight. The known Z430 alloy has tensile strengths of 280-350 N / mm ² , a yield strength R _p0.2 of _220-250 N / mm ² , an elongation at break A5 of _2-5 % and a hardness HB of _50-65 .

From US 4,990,310 is finally a zinc casting alloy known, the 2-4 wt .-% Al, up to 0.05 wt .-% Mg and 4 - 12 wt .-% Cu may contain. This known alloy should in addition to increased strength and Wear resistance improved Possess creep resistance. Prerequisite is but a certain constitution of the structure of each cast piece produced from the known alloy. This is intended in cases where the known alloy is processed by hot-chamber casting, especially then can be achieved if a Cu content of 5 to 7 wt .-% is available. How high with the known alloy each achieved strengths and other Material properties are actually, goes out of the US 4,990,310 not apparent.

As a basis for the melting of the known Zinc-cast alloys are commonly called so-called "Feinzink" used, which has a purity of 99.995% has.

Based on the above-mentioned state of Technique was the object of the invention is a Zinc alloy to create the most cost-effective Manufacture of castings that allows over a wide temperature range optimized material properties exhibit.

• aus Recycling-Zink erzeugt ist, dessen Verunreinigungsgehalt > 0,03 Gew.-% bis 0,135 Gew.-% beträgt, und
• die zusätzlich folgende Legierungsbestandteile enthält (in Gew.-%): Cu 3,50 - 7,00 %, Al 3,50 - 5,00 %, Mg 0,025 - 0,050 %.

The object is achieved by a zinc casting alloy, the

• is produced from recycled zinc whose impurity content is> 0.03 wt .-% to 0.135 wt .-%, and
• which additionally contains the following alloy constituents (in% by weight): Cu 3.50 - 7.00%, al 3.50 - 5.00%, mg 0.025-0.050%.

Zinc casting alloys according to the invention are based on Zinc melted that won in a recycling process has been. Unlike commercial fine zinc, whose production-related unavoidable components on one Minimum reduced, recycled zinc has higher levels on impurities. These can be up to 0.135% by weight, preferably up to 0.100 wt .-%, wherein Minimum levels of 0.05 wt .-% and more are the rule. Surprisingly, it turned out that one In spite of this, the cast zinc alloy is composed according to the invention the circumstance that they are due to the use of Recycled zinc a significantly higher proportion Impurities, has a property profile, that the characteristics of the state of the art known, usually for the production of Zinc castings used alloys is superior. This success sets itself even if the proportion the impurities in the recycled zinc 0.075 wt .-% and is more.

According to the invention this is achieved in that the Use of recycled material as the basis of alloy according to the invention is combined with a increased copper content. Surprisingly, it stands out the property profile obtained by this combination through a substantial consistency of properties over a wide temperature range. That's how it turns out inventive zinc alloy produced components especially good for outdoor use, where you can find the above Seasons changing, typically between -20 ° C and 150 ° C lying temperatures and the other Are directly exposed to environmental pollution.

Under these operating conditions is the Bending fatigue strength of an alloy according to the invention in entire temperature range from -20 ° C to 150 ° C around each at least 15% higher than the corresponding value for the well-known alloy Z410 could be determined, whereby both in the range of low temperatures of up to -20 ° C as well as in the range of high temperatures of more as 120 ° C, the value of the alloy according to the invention determined bending fatigue strength by at least 40% was better than the corresponding strength value of known zinc casting alloy Z410. It is remarkable about it addition, that in the alloy of the invention Transition between the strength values in essence linear, while the known alloy only in Range of 0 ° C to 120 ° C behaves like this.

Furthermore, it has been found that the load at the one with a vertical load one from a Alloy manufactured specimen to a break comes, in each case at least 40% to 80% is higher than the load at which a corresponding, from the known Z410 alloy sample breaks.

The span in the Cu of the alloy according to the invention can be added is that the for the respective application optimized properties of the Alloy can be adjusted.

Is for example next to a high tensile strength and Interchangeability an optimal casting behavior low wear of the casting plant in the foreground, so is it is expedient, the alloy according to the invention Cu contents from 3.50 to 4.90% by weight. invention Cast alloys with Cu contents in this range can be shed at lower casting temperatures, at which also the wear of the casting machine is reduced.

Nevertheless, they have strengths, the strengths are superior to the known alloys. Have so Practical tests show that when out of one According to the invention 3.5 to 4.9 wt .-% Cu-containing alloy cast components at least 40% better Have strength values than the conventional alloy Z410.

If even higher load capacities are required, can This can be achieved by the inventive Alloy 5.0 wt .-% to 6.5 wt .-% copper. at such adjusted copper contents can for a Alloy strengths according to the invention be guaranteed at least 50% over the corresponding strengths of the known alloy Z410 lie.

The impurities present in a zinc casting alloy according to the invention are usually composed of the elements which are also present in the case of fine zinc-based alloys. In addition to the melting-technically unavoidable traces of other elements, the individual contents of these elements should be limited as follows (in wt .-%): Fe ≤ 0.075%, pb ≤ 0.005%, CD ≤ 0.004%, sn ≤ 0.003%, Ni ≤ 0.02%, Si ≤ 0.02%, Mn ≤ 0.002%.

Hereinafter, the invention with reference to two Embodiments explained in more detail.

Based on recycled zinc having an impurity content of more than 0.05% by weight, a zinc casting alloy E1 containing 5.500% by weight of Cu, 4.000% by weight of Al and 0.050% by weight of Mg is melted and 50 is used as specimens Determining the breaking load used wedge pieces have been cast, which are used in a drive gear. Subsequently, the wedge pieces have been subjected to a mixed load of tensile and compressive forces, which have been produced in the form of a pressing acting on the inclined surface of the wedges on a surface of 60 mm ² . This pressure was increased in each case, until it came to the break of the wedge. It was found that in the average of 50 samples the fracture occurred at a pressure of 255 bar.

Also based on recycled zinc with a Impurity content of more than 0.05 wt% is one second zinc casting alloy E2 with 4.500 wt .-% Cu, 4.000 Wt% Al and 0.050 wt% Mg melted and 44 Wedge pieces of the type mentioned above potted whose dimensions coincided with those in the first attempt examined wedges agreed. Also these wedge pieces are then one to a mixed load of train and compressive forces have been subjected to leading pressure. The values of the pressure have also been recorded, where the wedge pieces are each broken. The above the 44 sample wedges determined means of pressing, in which it came to a break, was at 239 bar.

For comparison, there are 20 wedge pieces whose dimensions also with those examined in the first experiment Wedge pieces agreed, from a conventional one Z410 cast zinc alloy V poured and the Subjected to mixed load test. The from the conventional wedges broke on average at a pressure load of 169 bar.

The experiments carried out have thus also confirmed that the alloy according to the invention, despite the Circumstance that they are based on with high Contamination levels of contaminated recycled zinc produced, compared to the prior art clearly has improved properties.

In the attached diagram is for the composite according to the invention, 4.5 wt .-% (alloy E1) or 5.5 wt .-% Cu containing alloys E1 and E2, the average breaking load moment Bat, in which there is the break of the 50th examined wedges, applied over the temperature prevailing at the time of the respective examination. The relevant course is denoted by Z _E in the diagram. The associated measured values are shown as squares (alloy E1) or diamonds (alloy E2).

In addition, in the diagram for the tested for comparison, made of the conventional Z410 alloy wedge pieces recorded at the corresponding temperatures breaking load moment Bat been registered. The course is denoted by _V Z. The associated measured values are shown as triangles.

Also the comparison made possible by the diagram proves the clear superiority of the invention Alloys E1, E2. Particularly noteworthy is that at a temperature of -20 ° C at the alloy E2 only at a moment of 85 N / m or with the alloy E1 only broke at a moment of 79 N / m while this in the case of those made from the known Z410 alloy Wedges were already the case at 55 N / m. Remarkably moreover, that in the from the inventive Alloy generated wedges the breaking load moment from the high value at -20 ° C to one Temperature of 150 ° C decreases substantially linearly, while it's out of the conventional Z410 alloy produced wedges from 120 ° C to a significant drop in Resilience comes.

Claims (6)

Zinc alloy, which is produced from recycled zinc, whose impurity content is more than 0.03 wt .-% to 0.135 wt .-%, and which additionally contains (in% by weight) the following alloying ingredients: Cu: 3.50-7.00%, Al: 3.50-5.00%, Mg: 0.025-0.050%. Zinc alloy according to claim 1, characterized in that the content of impurities is at least 0.075% by weight. Zinc alloy according to one of the preceding claims, characterized in that the content of impurities is at most 0.100% by weight. Zinc alloy according to one of the preceding claims, characterized in that the content of Cu is 3.50 to 4.90% by weight. Cast zinc alloy according to one of claims 1 or 2, characterized in that the Cu content is 5.00 wt .-% to 6.50 wt .-%. Zinc alloy according to one of the preceding claims, characterized in that the impurities contained in the recycled zinc in addition to melting technically unavoidable traces of other elements (in wt .-%) Fe ≤ 0.075%, pb ≤ 0.005%, CD ≤ 0.004%, sn ≤ 0.003%, Ni ≤ 0.02%, Si ≤ 0.02%, Mn ≤ 0, 002% include.

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