There are cases where it would be convenient to be able to strip out all but a small number of "exported" public symbols, but it's not really feasible.
A static library is little more than a collection of .obj files. The internal dependencies haven't been resolved yet, and they won't be resolved until link time.
For example, if your .lib consists of foo.obj and bar.obj, and there's a call in foo.obj to a function defined in bar.obj, then that symbol must be available at link time, even if nothing outside of the library should be able to see it.
For that reason, you cannot strip the symbols (with the possible exception of file-scope static symbols). Even class methods that are protected or private (in the C++-sense) will exist in the symbol table, since the enforcement of the visibility is a compile-time issue, not a link-time one.
In contrast, a dynamic library is a standalone binary that has already been linked. References from foo.obj to bar.obj have already been resolved. Thus a DLL can be stripped of symbols except for the ones that must be exported (and even those can be renamed or replaced by ordinals).
If your DLL exposes a simple C API, then you're all set. But if you want to expose a C++ class, you're probably going to end up exporting all of its methods, even the protected and private ones (since inlining in the external application might result in direct calls to private methods).