US2239744A - Thermal treatment for aluminum base alloys - Google Patents
Thermal treatment for aluminum base alloys Download PDFInfo
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- US2239744A US2239744A US275874A US27587439A US2239744A US 2239744 A US2239744 A US 2239744A US 275874 A US275874 A US 275874A US 27587439 A US27587439 A US 27587439A US 2239744 A US2239744 A US 2239744A
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- aluminum base
- alloys
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- temperature
- alloy
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- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22F—CHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS AND NON-FERROUS ALLOYS
- C22F1/00—Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
- C22F1/04—Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of aluminium or alloys based thereon
Definitions
- the invention relates to a thermal treatment for aluminum base alloys, and finds particular application in the treatment of the so-called spontaneously ageable aluminum base alloys.
- aluminum base alloys we mean alloys containing more than 50 per cent of aluminum and a balance of one or more other alloying elements.
- the metal may nevertheless be mechanically deformed and subjected to the usual fabrication processes.
- some alloys are allowed to stand or age for a few days, even at ordinary temperatures, their strength and hardness continue .to increase even beyond the values existing immediately following solution heat treatment and quenching.
- An object of this invention is to provide a method for improving the working characteristics of age-hardened alloys.
- the invention has for its further purpose the provision of an improved process whereby alloys may be renderedmore plastic following solution heat treatment and agehardening thereof, which method does not include a repetition of the solution heat treatment. More particularly, the object of the invention is to provide a method whereby the plasticity of such alloys may be increased without materially affecting the final hardness and strength of the alloy.
- the specific object of the invention is to provide such a method which is applicable to the working of aluminum base alloys which have been spontaneously age-hardened following solution heat treatment and rapid cooling thereof.
- the real purpose of the thermal treatment disclosed herein is to place an agehardened article, made from spontaneously ageable aluminum base alloy, in a physical condition substantially equivalent to that existing immediately after the article was quenched from the solution temperature.
- the working characteristics of spontaneously age-hardenable alloys may be greatly improved if the metal after agehardening is subjected for a short time to an additional heat treatment, prior to fabrication, at a temperature slightly below the temperature at which the alloy is normally annealed, and is then rapidly cooled.
- the temperature and the time of treatment vary with the nature of the particular alloy being treated; but in the case of most aluminum base alloys, for example, the treatment should be at a temperature of from about 225 C. to about 300 C., and should last for a period of from a few seconds to not more than minutes. Following such a treatment, the metal may be worked with substantiallythe same ease as immediately following the quenching from the solution heat treatment temperature.
- the alloy upon re-ag-ing subsequent to the treatment, regains substantially the same physical properties that it had prior tothe practice of our process.
- the invention may be more particularly described with reference to the following tests in which the values stated for tensile and yield strengths refer to pounds per square inch.
- Specimens of aluminum alloy containing 3.95 per cent copper, 0.55 per cent manganese, 0.54 per cent magnesium, 0.51 per cent silicon, and 0.45 per cent iron were subjected to the usual solution heat treatment temperature and rapidly quenched in cold water. They then showed a yield strength of 18,150 lbs., a tensile strength of 48,585 lbs., and an elongation of 23.5 per cent. Following this treatment the specimens were permitted to stand for four days at room temperature. At the end of this time the specimens were found to have properties which made them practically unworkable when subjected to fabrication processes, their yield strength being 37,700 lbs., their tensile strength 64,630 lbs., and their elongation 21.0 per cent.
- the specimen then was permitted to stand at room temperature for four days, and tests showed that its yield strength had again arisen to 38,300 lbs., its tensile strength to 64,405 lbs. and its elongation had decreased to 20.8- per cent, indicating that the specimen had agehardened following its /2 minute treatment at 250 C. and that it had substantially the same properties as the specimens after age-hardening subsequent to solution heat treatment.
- spontaneously age-hardenable aluminum base alloys are familiar to those skilled in the aluminum base alloy art. For instance, without intending to limit the scope of the invention, we may mention aluminum base alloys containing appreciable amounts of magnesium and silicon; we have successfully used our invention on a specific aluminum base alloy of this nature containing approximately 0.7 per cent silicon, 1.25 per cent magnesium, and 0.25 per cent chromium, the balance being aluminum containing the usual impurities. As hereinabove described, it is apparent that the method is applicable to any spontaneously ageable aluminum base alloy, regardless of the extent or diversity of its added alloying constituents. It will be understood that the various modifications in time and temperature of treatment which comprises subjecting said alloys to a temperature between about 225 C. and about 300 C. for a period of from a few seconds to about 5 minutes, and rapidly cooling said alloys.
- a method of working spontaneously age-' hardened aluminum base alloys which comprises treating said alloys for a period of from a few seconds to about minutes from a temperature of from about 225 C. to about 300 C., subjecting said alloys to fabrication steps, and then agehardening said alloys.
- a method for restoring to an article of spontaneously aged aluminum base alloy substantially the same properties prior to its fabrication which it possessed immediately after solution heat treatment and quenching which comprises subjecting said article to a temperature between about 225 C. and about 300 C. for a period of between a few seconds and about 5 which comprises subjecting said article to a temperature between about 225 C. and about 300 C. fora period of from a few seconds to about 5 minutes, and rapidly cooling said article.
- a method for restoring to an article of spontaneously aged aluminum base alloy containing magnesium and silicon substantially the same properties prior to its fabrication which it possessed immediately after solution heat treatment and quenching which comprises subjecting said article to a temperature between about 225 'C. and about 300 C. for a period of from a few seconds to about 5 minutes, and rapidly cooling said article.
Description
Patented Apr. 29, 1941 THERMAL TREATMENT FOR ALUMINUM BASE ALLOYS Dana W. Smith and William L. Fink, Oakmont, Pa., assignors to Aluminum Company of America, Pittsburgh, Pa., a corporation of Pennsylvania No Drawing. Application May 26, 1939, Serial No. 275,874
7 Claims.
The invention relates to a thermal treatment for aluminum base alloys, and finds particular application in the treatment of the so-called spontaneously ageable aluminum base alloys. By aluminum base alloys we mean alloys containing more than 50 per cent of aluminum and a balance of one or more other alloying elements.
at the high temperaturewhich condition may be retained in the alloy at normal temperatures following rapid cooling or quenching thereto, and results in an immediate or eventual increase in the strength, hardness, and elasticity of the metal.
Although the solution heat treatment and quenching above described result in improved strength and hardness, the metal may nevertheless be mechanically deformed and subjected to the usual fabrication processes. However, if some alloys are allowed to stand or age for a few days, even at ordinary temperatures, their strength and hardness continue .to increase even beyond the values existing immediately following solution heat treatment and quenching.
This gradual change in physical properties at ordinary or room temperatures is herein termed spontaneous or natural aging as distinguished from artificial aging. Artificial aging characterizes the effect on solution-treated alloys of a relatively low temperature but higher than room temperature. Spontaneously ageable alloys, therefore, are alloys which develop certain properties such as reduced ductility and increased hardness and strength at ordinary temperatures after a solution treatment as above defined.
Because of this hardening which takes place spontaneously in such alloys and which adversely affects their working characteristics, it is often necessary that an alloy which is to be fabricated r following solution heat treatment be" subjected to its forming steps immediately following cool- No satisfactory method has been provided whereby an age-hardened alloy may be softened and rendered sufliciently plastic to permit ready application of all fabrication processes. The metal may be annealed prior to fabrication, but this is unsatisfactory because the metal does not ageharden and regain its former properties following the annealing step. The only remedy has been to repeat the solution heat treatment at an elevated temperature in order to produce resolution of its constituents and to overcome the effects of age-hardening, and then to cool the metal. Following this process, the metal may be immediately fabricated and then again permitted to age and to regain the properties taken from it by the additional solution heat treatment.
An object of this invention is to provide a method for improving the working characteristics of age-hardened alloys. The invention has for its further purpose the provision of an improved process whereby alloys may be renderedmore plastic following solution heat treatment and agehardening thereof, which method does not include a repetition of the solution heat treatment. More particularly, the object of the invention is to provide a method whereby the plasticity of such alloys may be increased without materially affecting the final hardness and strength of the alloy. The specific object of the invention is to provide such a method which is applicable to the working of aluminum base alloys which have been spontaneously age-hardened following solution heat treatment and rapid cooling thereof. In
ing or quenchingto normal temperatures and beactual effect, the real purpose of the thermal treatment disclosed herein is to place an agehardened article, made from spontaneously ageable aluminum base alloy, in a physical condition substantially equivalent to that existing immediately after the article was quenched from the solution temperature. Other objects will appear in the following description of the invention.
We have discovered that the working characteristics of spontaneously age-hardenable alloys may be greatly improved if the metal after agehardening is subjected for a short time to an additional heat treatment, prior to fabrication, at a temperature slightly below the temperature at which the alloy is normally annealed, and is then rapidly cooled. The temperature and the time of treatment, of course, vary with the nature of the particular alloy being treated; but in the case of most aluminum base alloys, for example, the treatment should be at a temperature of from about 225 C. to about 300 C., and should last for a period of from a few seconds to not more than minutes. Following such a treatment, the metal may be worked with substantiallythe same ease as immediately following the quenching from the solution heat treatment temperature. Moreover, the alloy, upon re-ag-ing subsequent to the treatment, regains substantially the same physical properties that it had prior tothe practice of our process.
The invention may be more particularly described with reference to the following tests in which the values stated for tensile and yield strengths refer to pounds per square inch.
Specimens of aluminum alloy containing 3.95 per cent copper, 0.55 per cent manganese, 0.54 per cent magnesium, 0.51 per cent silicon, and 0.45 per cent iron were subjected to the usual solution heat treatment temperature and rapidly quenched in cold water. They then showed a yield strength of 18,150 lbs., a tensile strength of 48,585 lbs., and an elongation of 23.5 per cent. Following this treatment the specimens were permitted to stand for four days at room temperature. At the end of this time the specimens were found to have properties which made them practically unworkable when subjected to fabrication processes, their yield strength being 37,700 lbs., their tensile strength 64,630 lbs., and their elongation 21.0 per cent.
One of the specimens was then treated for a period of minute in a salt bath having a temperature of 250 C. and was then rapidly quenched to normal temperature. By this treatment 'the yield strength was decreased to 21,050 lbs. and the tensile strength to 51,160 lbs. and the elongation was increased to 22.5 per cent. These properties approximated those of the specimens immediately following solution heat treatment, which made the alloy relatively easy to fabricate.
The specimen then was permitted to stand at room temperature for four days, and tests showed that its yield strength had again arisen to 38,300 lbs., its tensile strength to 64,405 lbs. and its elongation had decreased to 20.8- per cent, indicating that the specimen had agehardened following its /2 minute treatment at 250 C. and that it had substantially the same properties as the specimens after age-hardening subsequent to solution heat treatment.
Other specimens were similarly treated at the same temperature for various periods and the results of the tests may be tabulated as follows:
Properties of specimens following solution heat treatment and quenching Yield Tensile Elongastrength strength tion Pounds Pounds Percent Yield Tensile Elongastrength strength tion Pounds Pounds Percent Properties of above heat treated and aged specimens following treatment at 250 C.
Time of Yield Tensile Elongagw g strength strength tion Minutes Pounds Pounds Percent Properties of heat treated and aged specimens following treatment at 250 C. and
additional four dag aging g fgg Yield Tensile Elongag o C strength strength tion M inutes Pounds Pounds Percent The tests indicate that for the particular alloy described reduction may be effected in the yield and tensile strengths of the age-hardened alloy if it is heated to a temperature of between about 225 C. and about 300 0., and they further show that the treatment may continue for periods up to 5 minutes. However, elongation is decreased by the treatment if the alloy is heated for the longer periods, and, for that reason, the alloy may best' be fabricated following treatment between those temperatures continuing from about 15 seconds to about 2 minutes, preferably. for a minute or less. Moreover, the alloy, if heated for a period of over 4 minutes, appears to lose its capacity to age-harden following the treatment andtherefore does not recover the strength and hardness which it had as an age-hardened alloy prior to the treatment.
Other spontaneously age-hardenable aluminum base alloys are familiar to those skilled in the aluminum base alloy art. For instance, without intending to limit the scope of the invention, we may mention aluminum base alloys containing appreciable amounts of magnesium and silicon; we have successfully used our invention on a specific aluminum base alloy of this nature containing approximately 0.7 per cent silicon, 1.25 per cent magnesium, and 0.25 per cent chromium, the balance being aluminum containing the usual impurities. As hereinabove described, it is apparent that the method is applicable to any spontaneously ageable aluminum base alloy, regardless of the extent or diversity of its added alloying constituents. It will be understood that the various modifications in time and temperature of treatment which comprises subjecting said alloys to a temperature between about 225 C. and about 300 C. for a period of from a few seconds to about 5 minutes, and rapidly cooling said alloys.
2. A method for improving the working characteristics of spontaneously ageable aluminum base, alloys containing copper following age- 3. A method of working spontaneously age-' hardened aluminum base alloys, which comprises treating said alloys for a period of from a few seconds to about minutes from a temperature of from about 225 C. to about 300 C., subjecting said alloys to fabrication steps, and then agehardening said alloys.
4. A method for restoring to an article of spontaneously aged aluminum base alloy substantially the same properties prior to its fabrication which it possessed immediately after solution heat treatment and quenching, which comprises subjecting said article to a temperature between about 225 C. and about 300 C. for a period of between a few seconds and about 5 which comprises subjecting said article to a temperature between about 225 C. and about 300 C. fora period of from a few seconds to about 5 minutes, and rapidly cooling said article.
6. A method for restoring to an article of spontaneously aged aluminum base alloy containing magnesium and silicon substantially the same properties prior to its fabrication which it possessed immediately after solution heat treatment and quenching which comprises subjecting said article to a temperature between about 225 'C. and about 300 C. for a period of from a few seconds to about 5 minutes, and rapidly cooling said article.
7. A method for restoring to an article of spontaneously aged aluminum base alloy containing copper and magnesium substantially the same properties, prior to its fabrication which it possessed immediately after solution heat treatment and quenching, which comprises subjecting said;
"article to a temperature -between about 225 C.
and about 300 C. for a period of from; a few seconds to about 5 minutes and rapidly cooling said article. v
DANA W. SMITH. WILLIAM L. FINK.
Priority Applications (1)
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US275874A US2239744A (en) | 1939-05-26 | 1939-05-26 | Thermal treatment for aluminum base alloys |
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US275874A US2239744A (en) | 1939-05-26 | 1939-05-26 | Thermal treatment for aluminum base alloys |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2695253A (en) * | 1949-05-06 | 1954-11-23 | Schaaber Otto | Heat treatment of aluminum alloys |
US3856584A (en) * | 1972-04-12 | 1974-12-24 | Israel Aircraft Ind Ltd | Reducing the susceptibility of alloys, particularly aluminium alloys, to stress corrosion cracking |
US4090889A (en) * | 1976-11-12 | 1978-05-23 | Chrysler Corporation | Forming of high strength aluminum alloy |
-
1939
- 1939-05-26 US US275874A patent/US2239744A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2695253A (en) * | 1949-05-06 | 1954-11-23 | Schaaber Otto | Heat treatment of aluminum alloys |
US3856584A (en) * | 1972-04-12 | 1974-12-24 | Israel Aircraft Ind Ltd | Reducing the susceptibility of alloys, particularly aluminium alloys, to stress corrosion cracking |
US4090889A (en) * | 1976-11-12 | 1978-05-23 | Chrysler Corporation | Forming of high strength aluminum alloy |
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