There's a lot of things to consider here, but let's tackle the simplest first:
What is the syntax
Well, in its basic form, it is considered casting. You cast the expression from one type, to another. That's it.
However, what exactly happens, that depends on the type, and a lot of other things.
If casting a value type to something else, you depend on one of the two types involved to declare a casting operator that handles this. In other words, either the value type need to define a casting operator that can cast to that other type, or that other type need to define a casting operator that can cast from the original type.
What that operator does, is up to the author of that operator. It's a method, so it can do anything.
Casting a value type to some other type gives you a different value, a separate value type, or a new reference type, containing the new data after casting.
int a = (int)byteValue;
Boxing and unboxing comes into play when you're casting a value type to and from a reference type, typically
object, or one of the interfaces the value type implements.
object o = intValue; // boxing
int i = (int)o; // unboxing
Boxing also comes into play when casting to an interface. Let's assume that "someValueType" is a struct, which also implements IDisposable:
IDisposable disp = (IDisposable)someValueType; // boxed
Casting a reference type, can do something else as well.
First, you can define the same casting operators that were involved in value types, which means casting one reference type to another can return a wholly new object, containing quite different type of information.
Boxing does not come into play when casting a reference type, unless you cast a reference type back to a value type (see above.)
string s = (string)myObjectThatCanBeConvertedToAString;
Or, you can just reinterpret the reference, so that you still refer to the same object in question, but you are looking at it through a different pair of type glasses.
IDisposable disp = (IDisposable)someDisposableObject;