DE102011118463B4 - Method for heat treating a cast component - Google Patents

Abstract

A method of heat treating an aluminum base alloy cast component in which the component is subjected to solution annealing (14), quenched and then aged, characterized in that the solution anneal (14) is at a temperature (T3) of 460 ° C-530 ° C a time (t3) of 2 min-20 min is performed.

Description

The invention relates to a method for heat treating a cast component made of an aluminum-based alloy according to the preamble of patent claims 1 and 3, respectively.

Usually, cast components for use in the bodywork or chassis construction for motor vehicles are manufactured by die-casting from aluminum-silicon alloys. Silicon contents of 6 to 12% are typical. Advantages in the use of silicon are the good casting properties, a low shrinkage tendency and thus a very low susceptibility to hot cracking and voids formation. Due to the low shrinkage tendency also very complex components can be cast from such alloys.

The necessary strength of the components is ensured by the addition of magnesium, typically in the range between 0.1 and 0.5%. The increase in strength is caused by the formation of the Mg ₂ Si phase, which is mainly due to a heat treatment of the components after casting. For optimum solubility of magnesium as a prerequisite for the formation of this phase annealing temperatures of more than 450 ° C, in particular up to 530 ° C are used. At the same time the formation of Mg ₂ Si phase, but also leads to a decrease in the deformation ability of the alloy, so has an embrittling and therefore must be imitated depending on the part requirements.

As a rule, components made from such alloys are subjected to a T5 or T6 / T7 heat treatment. The T5 heat treatment, consisting of a single-stage removal without prior solution annealing, is characterized by a very good dimensional accuracy of the components with high strength. Usually Auslageremperaturen between 180 ° C and 240 ° C and Auslagerungszeiten of 1.5 to 4 hours are used here. However, disadvantageously, the T5 heat treatment leads to relatively poor deformation properties of the components.

In the T6 / T7 heat treatment, which includes the substeps solution treatment, quenching and subsequent aging, however, very good deformation properties are also achieved with high strength.

Typical solution annealing parameters are temperatures of 460 ° C to 520 ° C for 1 to 2 hours annealing time. Due to the reduced strength in the warm state, creep effects, which are responsible for component distortions, occur during annealing. Therefore, it is endeavored to keep the annealing temperature and / or duration as low as possible. The heat aging carried out after the solution heat treatment then takes place usually at 180 ° C. to 240 ° C. for 2 to 5 hours. Due to the long heat treatment time and the high energy consumption such heat treatment processes are economically very unfavorable.

In the publication US 2007/0 125 460 A1 For example, a cast component made of an aluminum-based alloy and a method for its heat treatment are described. The method of heat treatment includes solution heat treatment at a temperature of 450 ° C to 550 ° C for a period of 30 minutes to 6 hours, quenching and aging at a temperature of 150 ° C to 250 ° C for a period of 30 minutes up to 10 hours.

The present invention is therefore based on the object to provide a method according to the preamble of claim 1 or 3, by means of which with a short treatment time and low energy consumption particularly good component properties can be achieved.

This object is achieved by a method having the features of patent claim 1.

In such a method for heat treating a cast component of an aluminum-based alloy, the component is subjected to a solution annealing, quenched and then outsourced. According to the invention it is provided that the solution annealing at a temperature of 460 ° C to 530 ° C, in particular 460 ° C to 510 ° C, for a time of 2 min. To 30 min., In particular 2 min. To 20 min., is carried out. By increasing the annealing temperatures in comparison with the prior art, a shortening of the annealing time can be achieved. This is possible because a higher annealing temperature usually accelerates the formation of eutectic silicon. At the same time, the maximum solubility of the alloying elements in the mixed crystal increases, as a result of which higher final strengths can be achieved.

In a further embodiment of the invention, the aging is carried out at a temperature of 230 ° C to 320 ° C for a time of 2 min. To 60 min., In particular 2 min. To 45 min., Performed. Also, during the aging can be achieved by increasing the temperature over the prior art, a corresponding reduction of the heat treatment time. A higher temperature leads here to a faster elimination of the curing phases, which may have to be taken into account losses in the maximum achievable strength.

The described parameters for solution annealing and for aging can be combined as part of a T6 / T7 heat treatment process Find application. Of course, it is also possible to perform only the solution annealing or only the outsourcing with the parameters according to the invention and to carry out the respective other step in a conventional manner.

In all cases, shortening the heat treatment time makes the process management more economical and at the same time saves energy.

In a further embodiment of the invention, the cast component is quenched directly after the solution annealing to the temperature of the subsequent aging. On the other hand, a quenching to room temperature is common in the prior art. Quenching the aging temperature eliminates the need to re-heat the component, saving both energy and time.

It is particularly expedient to carry out the process for components made of aluminum-silicon alloys, since in this way particularly good component properties can be achieved.

The invention further relates to a cast component made of an aluminum-based alloy, in particular an aluminum-silicon alloy, which is heat-treated by means of a method of the type described.

In the following the invention and its embodiments will be explained in more detail with reference to the drawing. Show it:

1 a schematic representation of the temperature profile over time for a T6 / T7 heat treatment according to the prior art and

2 a schematic representation of the temperature-time course for an embodiment of the method according to the invention.

In order to investigate the influence of shortened heat treatment times with simultaneously elevated temperatures on the material properties of aluminum die-cast components, specimens made of AlSi10MnMg0.3 alloy were subjected both to a T7 heat treatment according to the prior art and to a heat treatment according to an embodiment of the inventive method.

1 shows the temperature-time history for the heat treatment according to a conventional T7 method. Here, first, a solution annealing takes place 10 in which the test specimen is held for a time t ₁ of 1.5 hours at an annealing temperature T ₁ of 460 ° C. After completion of the solution annealing, the test specimen is quenched in air to room temperature T _RT and then subjected to removal from storage 12 subjected. This takes place at an aging temperature T ₂ of 230 ° C for a removal time t ₂ of 2.5 hours.

A subsequent material testing revealed for the thus treated test specimen a yield strength R _p0.2 of 135 MPa and a tensile strength R _m of 200 MPa. The elongation at break A ₅ was 12.5%.

The process parameters of the method according to the invention are in 2 shown as a solid line. For comparison, the parameters of the T7 method according to the prior art are again superimposed as a dashed line.

In the treatment of the test specimen according to an embodiment of the method according to the invention is also carried out a solution annealing 14 at a compared to the temperature T ₁ increased solution annealing temperature T ₃ of 500 ° C. The duration t ₃ of solution annealing, on the other hand, has been reduced to 20 minutes compared with the duration t ₁ according to the prior art. Following the solution annealing 14 was also deterred here and then an outsourcing 16 carried out. This was carried out at an aging temperature T ₄ of 290 ° C for a removal time t ₄ of 30 min. Also in the outsourcing 16 Thus, the temperatures are increased over the prior art and the times shortened.

The subsequent material testing gave yield strengths R _p 0.2 of 140 MPa and R _m of 220 MPa. The elongation at break A ₅ here was 14%.

As can be seen, despite the heat treatment shortened from 240 minutes to a total time of 50 minutes, comparable material properties could be achieved. The thermal stability at 200 ° C in the one-hour test was given the desired degree.

In addition, in order to shorten the process time, it is possible, following the solution annealing 14 not to quench the room temperature T _RT , but rather to quench the quenching at the aging temperature T ₄ .

Overall, a comparable result could be achieved with a process time that was shortened by up to 80% compared to a conventional T7 heat treatment. Also, in the case of the short-time heat treatment in the context of the method according to the invention, a sufficient shaping of the eutectic silicon could be achieved, so that the components have the desired deformation property.

Claims (7)

Method for heat treating a cast component of an aluminum-based alloy, in which the component of a solution annealing ( 14 ), quenched and then paged, characterized in that the solution annealing ( 14 ) at a temperature (T3) of 460 ° C-530 ° C for a time (t3) of 2 min-20 min. Method according to claim 1, characterized in that the outsourcing ( 16 ) at a temperature (T4) of 230 ° C-320 ° C for a time (t4) of 2 min-60 min, especially 2 min-45 min, is performed. Method according to one of claims 1 or 2, characterized in that the cast component after solution annealing ( 14 ) down to the temperature (T4) of the subsequent removal ( 16 ) is deterred. Method for heat treating a cast component of an aluminum-based alloy, in which the component of a solution annealing ( 14 ), quenched and then outsourced, whereby the outsourcing ( 16 ) at a temperature (T4) of 230 ° C-320 ° C for a time (t4) of 2 min-60 min, in particular 2 min-45 min, characterized in that the cast component after solution annealing ( 14 ) down to the temperature (T4) of the subsequent removal ( 16 ) is deterred. Method according to claim 4, characterized in that the solution annealing ( 14 ) at a temperature (T3) of 460 ° C-530 ° C for a time (t3) of 2 minutes-30 minutes, especially 2 minutes-20 minutes. Method according to one of claims 1 to 5, characterized in that the method is carried out for components made of aluminum-silicon alloys. Cast component of an aluminum-based alloy, in particular an aluminum-silicon alloy, which is heat treated by a method according to one of claims 1 to 6.

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