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12-30-2006, 10:32 PM #1
Lew,
There is a certain amount that is covered in the Code, but also a certain amount of professional judgment. For example, the UBC (on which the IRC is based, but I don't have IRC since it's not used here) allows a 3/8" plywood CDX panel, nailed 6" edge/12" field with 6d nails to handle 200 lbs/ft. However, an engineering firm, knowing that contractors often overdrive their nails in a significant number of cases, going through at least one ply of this 3-ply material (and thereby reducing the nailing strength by 1/3) might not even include 3/8" plywood on their schedules.
Instead, their minimum typical shear wall will be 5-ply w/ 8d nails, good for 260 lbs./ft. Now a Simpson A35 clip angle is good for 450 lbs. (per their catalog) when used to transfer roof diaphragm loads from the eave blocking to a top plate, say. So, for 260 lbs./ft., you'd need one A35 at least every 1.73'. (450 lbs./260 lbs/ft.), or at least every 21" approx. Normal blocking would be every 16" or 24" though, depending on rafter spacing. You could put one A35 at every block at 16" o.c.and that would work, but what if the rafters are 24" o.c.? Some engineering firms might choose to downgrade the maximum shear value for that wall type to 225 lbs/ft and accept the 24" A35 clip spacing, others might choose to specify a different and stronger connector as typical in the schedule and keep the 260 lbs value for that wall type. Still others might say that 24" is close enough to 21" and just live with it even though it doesn't precisely calc out.
Now aren't you glad you asked?Last edited by RMorrison; 12-30-2006 at 10:38 PM.
Richard
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Richard Morrison
Architect-Interior Designer
X6 Premier, Win8 64
http://www.richardmorrison.com
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12-31-2006, 05:23 AM #2
Richard:
Thanks for the follow-up
LewLew Buttery
Castle Golden Design - "We make dreams visible"
Lockport, NY
716-434-5051
www.castlegoldendesign.com
lbuttery at castlegoldendesign.com
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12-31-2006, 09:43 AM #3Registered User Promoted
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For those interested in shear walls I would recommend "Guide to Wood Construction In High Wind Areas" by the Wood Products Promotion Council.
There are more manuals out there but this is very good. This manual covers only high wind loads and not seismic loads. Also the WFCM from the American Forest & Paper Association is good. I use both books for calc. loads and location shear walls. They have real good details that everyone should have in their library. This does not replace the engineer but will give the designer a good grasp of concept of shear walls, drag struts and other structural assemblies that address the moments within a building.
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12-31-2006, 10:47 AM #4Litte Fish in a Big Pond
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Shear walls are meant to resist a given force, so nailing, holddowns and sheathing and thickness can vary in each and every connection / location.
So my question is How much force are you trying to resist?
If you don't know and do not know how to calculate it, then how can you assign value to it?
Like richard said "It is and would be better left to a structural engineer!
I have a Shear table that I use that was design by my structural engineer. He locates the shear walls (redlines) on my drawings and references back to the schedule. In that schedule it calls out the force /energy it is designed to resist in foot pounds.
This schedule has about 30-40 different types of shear walls type (exterior, interior, with and without holddowns, sheathing type (plywood, OSB, Gyp. Board, etc.), fastener type (nails, screws etc.) and spacing.Last edited by m dalton; 12-31-2006 at 12:44 PM.
Michael L. Dalton
Parallax Designs