As the others have said, there is no single standard to file naming on windows.
For our complete product base which covers 100's of exes, dlls, and static libs we have used the following successfully for many years now and it has saved a lot of confusion. Its basically a mixing of several methods I've seen used throughout the years.
In a nutshell all our files of both a prefix and suffix (not including the extension itself). They all start with "om" (based on our company name), and then have a 1 or 2 character combination that roughly identifies the area of code.
The suffix explains what type of built-file they are and includes up to three letters used in combination depending on the build which includes Unicode, Static, Debug (Dll builds are the default and have no explicit suffix identifier). When we started this system Unicode was not so prevalent and we had to support both Unicode and Non-unicode builds (pre Windows 2000 os), now everything is exclusively built unicode but we still use the same nomenclature.
So a typical .lib "set" of files might look like
All files are built-in into a common bin folder, which eliminates a lot of dll-hell issues for developers and also makes it simpler to adjust compiler/linker settings - they all point to the same location using relative paths and there is never any need for manual (or automatic) copying of the libraries a project needs. Having these suffixes also eliminates any confusion as to what type of file you may have, and guarantees you can't have a mixed scenario where you put down the debug dll on a release kit or vice-versa. All exes also use a similar suffix (Unicode/Debug) and build into the same bin folder.
There is likewise one single "include" folder, each library has one header file in the include folder that matches the name of the library/dll (for example omfthread.h) That file itself #includes all the other items that are exposed by that library. This keeps its simpler if you want functionality that is in foo.dll you just #include "foo.h"; our libraries are highly segmented by areas of functionality - effectively we don't have any "swiss-army knife" dlls so including the libraries entire functionality makes sense. (Each of these headers also include other prerequisite headers whether they be our internal libraries or other vendor SDKs)
Each of these include files internally uses macros that use #pramga's to add the appropriate library name to the linker line so individual projects don't need to be concerned with that. Most of of our libraries can be built statically or as a DLL and #define OM_LINK_STATIC (if defined) is used to determine which the individual project wants (we usually use the DLLs but in some cases static libraries built-in into the .exe make more sense for deployment or other reasons)
#pragma comment (lib, OMLIBNAMESTATIC("OMFTHREAD"))
#pragma comment (lib, OMLIBNAME("OMFTHREAD"))
These macros (OMLIBNAMESTATIC & OMLIBNAME) use _DEBUG determine what type of build it is and generate the proper library name to add to the linker line.
We use a common define in the static & dll versions of a library to control proper exporting of the class/functions in dll builds. Each class or function exported from the library is decorated with this macro (the name of which matches the base name for the library, though that is largely unimportant)
class OMUTHREAD_DECLARE CThread : public CThreadBase
In the DLL version of the project settings we define OMFTHREAD_DECLARE=__declspec(dllexport), in the static library version of the library we define OMFTHREAD_DECLARE as empty.
In the libraries header file we define it based on how the client is trying to link to it
#define OMFTHREAD_DECLARE __declspec(dllimport)
A typical project that wants to use one of our internal libraries would just add the appropriate include to their stdafx.h (typically) and it just works, if they need to link against the static version they just add OM_LINK_STATIC to their compiler settings (or define it in the stdafx.h) and it again it just works.