Jim,
The idea, and supporting data, for the 1G/3G/4G variances for Grade 91 was initiated in the tech literature by Thyssen back in 95. But keep in mind that this position dependent data was also dependent upon bead shape as made clear by Thyssen in their Test Report. They assumed thicker beads in the 3G/4G and thinner beads in the 1G, and this therefore is the primary variable driving the impact toughness discrepency. These types of beads associated with these positions are not always the case. However I would concur that in general thinner beads will result in better impacts for Grade 91 based upon the depth of recrystallization and tempering, especially with Grade 91 where you just can't seem to get enough.
With duplex keep in mind that even though you will get recrystallization from the portion that transformed to austenite (duplex solidifies first as ferrite and then part of it transforms to austenite) you will obviously not have transformation of the ferrite portion and any tempering, so to speak would just be stress relief and perhaps some carbide precipitation, though C is kept low in duplex. You may however see considerable grain growth. Not unlike ferritic SS where you don't have a transformation either. In fact, the ferrite portion of duplex is essentially a ferritic SS, though admitedly it demonstrates some symbiotic thing with the austenite present that seems as a whole greater than the sum of the parts. I don't believe I've ever read the explanation for this. I'm not sure they even know why. Maybe a duplex guru somewhere does.
Duplex does have a rather substantial ductile to brittle transition (due to the ferrite). So thin beads can help Grade 91 but not nearly so duplex, if at all.