Why do turbines have a static duct and micron tolerances for the blades (and creep requirements) instead of a rotating (attached to the blades) duct that can be tensioned separately, and (presumably) no creep/micron tolerances?
Not an expert here, but afaik a turbine section consists of alternating spinning blades attached to the shaft and stationary vanes attached to the duct, which de-spin the air coming off the blades and prepare it for the next set. I'm not sure why the vanes are often hidden in cutaway views.
If you had a spinning duct, you'd presumably need a stationary shaft in the middle for mounting the vanes, and would have similar tolerance issues between the tips of the stationary vanes and the rotating duct. There's reasons that it might be easier to solve (the duct can be lower temperature) and reasons it's harder (bearings for a giant spinning duct). Not sure if anyone has tried such a design.
Why do turbines have a static duct and micron tolerances for the blades (and creep requirements) instead of a rotating (attached to the blades) duct that can be tensioned separately, and (presumably) no creep/micron tolerances?