The battery is probably sulfated.
If so, it won't matter how many amp charger you put on it, it still won't charge.
Sometimes, if the plates aren't completely sulfated, a high charge rate can get more sulfate off the plates and partially recover the battery to some useful state. Then keeping it at full charge can mostly un-sulfate the battery. Occasionally, the battery becomes useful agin.
I have a 6 amp charger with a current meter on it (purchased in 1964, HA!). A good but depleted battery will show an initial charge rate of 6 amps. A sulfated one won't accept much, if any, current even through there is plenty of voltage to offer a charge.
High currents should only be applied to known depleted batteries, and then monitored closely for voltage level at the battery, never letting the voltage go over 14.5 volts and watching for out gassing. When parts of the internal battery have achieved full charge, the electrolyte starts separating the hydrogen and oxygen out of it. This looks like boiling, but is actually making the electrolyte acid much stronger. This eats away plate material faster. If the electrolyte level gets too low, the plates can overheat and warp, shorting some of the cells together.
It is best to note the voltage level of the charged battery. After a rest, the Voltage should settle to about 12.6-12.7 volts.
I use an old headlight to place a load on the battery, which draws 5 amps. A good battery won't allow the voltage to drop during load below 10-10.5 volts with such a load. Bad batteries won't even have 9v under such a light loading. A bike and starter load of 30 amps, will take these bad batteries below 7v, which won't work the starter, and make spark unreliable.
There are many variations and characteristics of batteries in the range between good/new, and damaged/abused/bad. The above are some general guidelines.
Cheers,
