You're understanding is backwards. Weak references are more often used for implementing child-to-parent relationships. They would seldom make sense for a parent-to-child relationship. Generally the parent owns the child; that means strong.
The vast majority of the time you want a strong reference. That's why it's the default. The most common reason not to have a strong reference is if it would cause a retain loop. For instance, if A has a strong reference to B, then if B had a strong reference to A you'd have a loop and neither object would ever be deallocated. So you pick one of the objects to be the owner, and it has the strong reference. The other object has a weak reference.
The most common case of this is delegation. A delegate almost always owns the thing it is delegate for. So the delegating object should have a weak reference to the delegate. As a convention in Objective-C, a property called
delegate is expected to be weak. (If this feels backwards, think about how you use
UITableViewDelegate in practice, and which one you'd want to consider the "owner.")
Weak delegate pointers are not a hard-and-fast rule. There are exceptions such as
NSURLConnection. If the delegating object has a shorter lifetime than the delegate, then it is ok (and generally preferable) for it to maintain a strong reference.
"Received Memory Warning" does not necessarily have anything to do with memory management. It just means you're using too much memory. If you have retain loops, then you may be leaking memory, and that would cause this warning. But it could also be because you're simply using too much memory. The "Allocations" tool in Instruments is the best way to investigate this.
While the implementation of "strong" and "weak" are very recent additions to Objective-C, they just formalize and provide better language support for what properly written code has been doing for many years with manual retains. The ownership patterns are identical today to what they were before ARC.