I think Dave's answer is pretty good, but I would like to explain a bit why to use such approach.
In other languages like Scala, Haskell or Python, you have usually the presence of tuples (being pair a tuple of two elements) and they have this idiomatic way to assign them to variables:
(var1,...,varN) = func_returning_tuple()
This has the purpose of expand semantic value of your code and improve his readability, where otherwise you would have a single variable with no semantics to their elements (like t.first, and so on), and in C++ to access values of tuples you would have to use:
varN = std::get<N>(my_tuple);
So, using only tie, you could make your example code easier to read as follows:
std::tie( element_iterator, inserted ) = set_of_str.insert("test");
And then use your isolated variables at will, this improves the way others (and even yourself) read the next statements of your code.
std::ignore is used when you don't care for what is returned, in some other languages you also have this resource, in Scala for example this is the underscore. For example, if I use the insert function in a map and the value already exists it just returned the pair containing
(iterator,false) so if I want the iterator for some key, even if I don't care if it already exists in the map, I can do it with this line:
std::tie( element_iterator, std::ignore ) = set_of_str.insert("test");
That's the way C++ solves this readability issue of tuples and pairs.