This is actually a very good practice. Aging does increase the welded properties significantly. If you weld 6061-T6, you will get welded strengths of about 25 KSI. If you use 6061-T4, weld it, and age it, you will get welded strength of about 34 KSI. You can use this processing sequence for any of the heat-treatable alloys, although the welded strengths will vary with the alloy.
To produce a T4 alloy in any of the heat-treatable alloys, the metal is heated to about 1,050 degrees F and then quenched, usually in water. All alloys will naturally age—gain strength—for some time after quenching. 6061 will gain strength for about two weeks after quenching and then stop. Other 7XXX alloys, such as 7005, will naturally age for several months after quenching, and gain quite a lot of strength. The good news is that all of the aluminum producers recognize this. When they sell T4 products, they have been held in the producer’s warehouse long enough so that the natural aging is finished and the aluminum is stable.
So if you keep T4 material in your shop for five years or so, has it changed? Are the properties no longer T4? The answer is no. Once the natural aging period is finished, the properties are stable and do not change, unless you perform an aging heat treatment.
So how do you do that? Well, actually, a number of time-temperature combinations can be used, depending on the alloy. For 6061-T4, a very common aging treatment is 400 degrees F for 2 hours, although others will work too. The good news is that this temperature is low enough that your component will not distort during the aging treatment.
I will close with two cautions. First, if you want to age after welding, you should use 4043, not 5356, as the filler metal. Second, while the technique I have described works very well, most codes, including AWS D1.2, will not allow you to take credit for the increased weld strength in your design calculations.
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