I think your best bet is to look at the TargetDataLine interface. I assume you are already capable of converting your strings into a byte array. This byte array can be treated as the equivalent of raw audio data, but I have no idea if it will sound like anything at all interesting. With .wav format, you can choose to use 16-bit encoding (two bytes per sample) or 8-bit, too, I suppose, depending upon the size of your chars.
But given that 44100 samples per second is one of the most common rates, I would point out, that that this would require a LOT of text for very little time, if each sample is a letter!
The "key" functions in the TargetDataLine are an index into this array, and a read() method that makes use of this index as the read() method is repeatedly called. The read() method should return up to a buffer's worth of bytes with every call.
One of the methods you will need to implement, as well, will be getFormat(). I am using the following code in a simple "Theremin" synthesizer, to output bytes from a table floats (using a "wave table" of around 1000 floats for a single iteration of a sound wave) to a stereo, 16-bit, 44100 fps, little-endian .wav format to a SourceDataLine for playback.
public AudioFormat getFormat()
AudioFormat af = new AudioFormat(
44100, 16, 2, 4, 44100, false);
You can learn more from the Java Tutorials. I would in particular look at the sections "Setting up a TargetDataLine" and "Reading from a TargetDataLine" in the Capturing Audio tutorial.
But also, maybe the very start of the sound tutorials where the nature of sound data is discussed, would be very much worth your time.