You're suffering the same problem I do when I'm trying to learn what a compiler does--you make a trivial program to demonstrate the problem, and examine the assembly output of the compiler, only to realize that the compiler has optimized everything you tried to get it to do away. You may find even a rather complex operation in main() reduced to essentially:
Your original question is not "what happens with
int i = 5; int j = 10...?" but "do temporary variables generally incur a run-time penalty?"
The answer is probably not. But you'd have to look at the assembly output for your particular, non-trivial code. If your CPU has a lot of registers, like an ARM, then i and j are very likely to be in registers, just the same as if those registers were storing the return value of a function directly. For example:
int i = func1();
int j = func2();
int result = i + j;
is almost certainly to be exactly the same machine code as:
int result = func1() + func2();
I suggest you use temporary variables if they make the code easier to understand and maintain, and if you're really trying to tighten a loop, you'll be looking into the assembly output anyway to figure out how to finesse as much performance out as possible. But don't sacrifice readability and maintainability for a few nanoseconds, if that's not necessary.