The short and accurate answer is simply "because that's what Bjarne decided."
Although the arguments about which operands should be evaluated and in what sequence give a technically accurate description of what happens, they do little (nothing, really) to explain why this particular operator can't be overloaded.
In particular, the same basic arguments would apply equally well to other operators such as
operator && and
operator||. In the built-in version of each of these operators, the left operand is evaluated, then if and only if that produces
&& or a
||, the right operand is evaluated. Likewise, the (built in) comma operator evaluates its left operand, then its right operand.
In an overloaded version of any of these operators, both operands are always evaluated (in an unspecified sequence). As such, they're essentially identical to an overloaded ternary operator in this respect. They all lose the same guarantees about what operands are evaluated and in what order.
As to why Bjarne made that decision: I can see a few possibilities. One is that although it's technically an operator, the ternary operator is devoted primarily to flow control, so overloading it would be more like overloading
while than it is like overloading most other operators.
Another possibility would be that it would be syntactically ugly, requiring the parser to deal with something like
operator?:, which requires defining
?: as a token, etc. -- all requiring fairly serious changes to the C grammar. At least in my view, this argument seems pretty weak, as C++ already requires a much more complex parser than C does, and this change would really be much smaller than many other changes that have been made.
Perhaps the strongest argument of all is simply that it didn't seem like it would accomplish much. Since it is devoted primarily to flow control, changing what it does for some types of operands is unlikely to accomplish anything very useful.