Question says it all really. Code can be found at the following link -> http://www.mindrot.org/projects/jBCrypt/
First, it's not documented as thread-safe, so for all intents and purposes, it's not. And, on further investigation, it's definitely not: It turns out that, while there are some instance fields, there is no instance of BCrypt exposed; it tries to do everything through static methods. It may not be thread safe. It's small enough that, assuming you care and the author would accept, you could offer a patch to trivially convert it to provide separate, safe instances (edit to add: I have scrubbed it carefully and prepared a cleaner version, which I will send to the author...)
Second, in what manner do you want to use this in a multithreaded environment? It's not clear to me what you'd want to do in separate threads.
NOTE: There is a dissenting opinion below with more upvotes as of 7/18/2013
I strongly disagree with the existing answers, and the currently-accepted answer.
After a brief review of the source code for jBcrypt, I'm satisfied that it is thread-safe. The only instance created does not escape the scope of the key
Further, I'm really confused by the complaints about the API consisting of static methods. Hashing functions are pure, and so there is no reason to not provide them via static methods. I'm actually quite glad that there is no usable userland access to instance methods, lest some fool try to do something clever (like using one instance over and over, "resetting" it to minimize allocation/GC or some such silliness).
Resurrecting this old issue because I believe the current answers are wrong and this thread pops high in google searches.
Looked at the code and ran a couple of simple tests. jbcryt appears to be thread safe.
In the code: -although it has mostly static method, those methods create instances of the bcrypt class to do computations when needed.
Test samples: -had bcrypt not been thread safe, I would have expected either of these methods to throw some form of error, which they did not.