That's good news Mike,
I know I seem to harp on about this, but whenever electrolytic capacitors repairs are mentioned I feel the need to stress that there's more to the specification than just capacitance and voltage.
All electrolytic capacitors are marked with a rated temperature, usually either 85 or 105 centigrade for consumer devices. These temperatures may seem generous, and far beyond the temperature they will ever reach, but they are just a reference point for the manufacturers' rated life expectance. Electrolytic cap's life expectancy is based on a fairly well-understood and predictable chemical process and, as a rule of thumb, life expectancy doubles for every 10 degree reduction in temperature.
Manufacturers' stated life expectancy at rated temperature is often very short indeed, maybe just a month or two. Thus it's important to use a capacitor with a temperature rating that very generously exceeds the temperature at which it will be used. And the more generous you are, the longer it will last. At most 'normal' operating temperatures a 105 degree capacitor should last about four times as long as an 85 degree capacitor, for example.
The other all-important parameter is ESR (equivalent series resistance). When a capacitor passes any significant current the ESR leads to dissipation of power, in other words the device gets warm. As described in the previous paragraph, that reduces life expectancy. Quite apart from the temperature increase though, switch-mode PSUs often demand low ESR capacitors simply because they won't work properly without them. So if you ever replace a cap' and it doesn't fix the problem, you may want to reconsider whether the ESR parameter of the replacement matched the original.
That said, well done Mike