You can multiply two quaternions together to produce a third quaternion that is the result of the two rotations. Note that quaternion multiplication is not commutative, meaning order matters (if you do this in your head a few times, you can see why).

You can produce a quaternion that represents a rotation by a given angle around a particular axis with something like this (excuse the fact that it is c++, not java):

```
Quaternion Quaternion::create_from_axis_angle(const double &xx, const double &yy, const double &zz, const double &a)
{
// Here we calculate the sin( theta / 2) once for optimization
double result = sin( a / 2.0 );
// Calculate the x, y and z of the quaternion
double x = xx * result;
double y = yy * result;
double z = zz * result;
// Calcualte the w value by cos( theta / 2 )
double w = cos( a / 2.0 );
return Quaternion(x, y, z, w).normalize();
}
```

So to rotate around the x axis for example, you could create a quaternion with `createFromAxisAngle(1, 0, 0, M_PI/2)`

and multiply it by the current rotation quaternion of your model.