Is it correct to say that everywhere recursion is used a for loop could be used?
Yes, because recursion in most CPUs is modeled with loops and a stack data structure.
And if recursion is usually slower what is the technical reason for using it?
It is not "usually slower": it's recursion that is applied incorrectly that's slower. On top of that, modern compilers are good at converting some recursions to loops without even asking.
And if it is always possible to convert an recursion into a for loop is there a rule of thumb way to do it?
Write iterative programs for algorithms best understood when explained iteratively; write recursive programs for algorithms best explained recursively.
For example, searching binary trees, running quicksort, and parsing expressions in many programming languages is often explained recursively. These are best coded recursively as well. On the other hand, computing factorials and calculating Fibonacci numbers are much easier to explain in terms of iterations. Using recursion for them is like swatting flies with a sledgehammer: it is not a good idea, even when the sledgehammer does a really good job at it+.
I borrowed the sledgehammer analogy from Dijkstra's "Discipline of Programming".