Sorry for the delay, Mike. For some reason my email notification was turned off, so I did not see that there were any replies. I ended up reducing my DL to actual intead of rough estimated weights and got the seismic down to about what wind load was. If this was Exp. 'B' which is more common, that would not have worked.
Yes, I knew about the 1/2" allow. defl. rule.
I dont know what you mean by your first question "Is this Cs still less than the maximum you need to use?" Due to R=1.5 it is much higher than I am used to seeing, thus making seismic govern over Exp. 'D' 85 mph wind.
This is a 24'x24' addition to the end of a "non-engineered" residential work shop pole bldg that is already about 80 x 24, so in order for the new addition to be self supporting and ignore the old, pole bldg design made sense with new poles just outside of the existing to start the add'n.
Yes, I think most people ignore seismic, including myself until I looked closer. Even a pole bldg manual I found said wind almost always controls. If we are going by the IBC and ASCE codes, we see that this R=1.5 is inconvenient, and will govern wind much of the time. My thought was I was missing some exeption or something.
I want to keep it simple, but its hard to just ignore such a large increase in code required load. I think this R=1.5 makes sense for buildings where you might have high axial loads that contribute to the P-delta affect, thus needing to keep the posts REALLY rigid to avoid collapse when a small amount of lateral load is applied. However, ASCE limits you to 15% of max. axial capacity AND limits bldg height to 35' for cantilevered columns. The combination just seems way too conservative for a light wood pole building.
I may have to ignore it in the future and just go with common sense, claiming "industry standard" if ever questioned. The poles and footings already end up quite large just considering wind.
![[bigsmile]](/data/assets/smilies/bigsmile.gif "[bigsmile] [bigsmile]")
