http://www.sbcmag.info/kb/KB_SBC_NewsDetails.php?KBID=17249&prid=769&prin=2146170345
North American engineered wood products and other lumber materials may be vital to rebuilding damaged structures and homes in Japan.
Tuesday, March 15, 2011
Monday, March 14, 2011
AWC/NAHB Fire Resistance for N.C. Building Code
http://www.sbcmag.info/kb/KB_SBC_NewsDetails.php?KBID=17193&prid=768&prin=2146170345
Interesting topic with respect to engineered wood products versus sawn lumber. As we explore more applications of wood construction, fire resistance will become a larger portion of the equation.
Interesting topic with respect to engineered wood products versus sawn lumber. As we explore more applications of wood construction, fire resistance will become a larger portion of the equation.
Sunday, March 13, 2011
Skyscrapers Next Challenge
Tall timber skyscrapers workable, report says
Believe it or not, a wood skyscraper could be in our future, especially with the BC government actively supporting its own forest industry. Mr. Green's comments about context are dead on. Today's context is not tomorrow's context. We should allow new knowledge to expand our existing way of thinking. Can't wait to see what happens next.
Believe it or not, a wood skyscraper could be in our future, especially with the BC government actively supporting its own forest industry. Mr. Green's comments about context are dead on. Today's context is not tomorrow's context. We should allow new knowledge to expand our existing way of thinking. Can't wait to see what happens next.
Saturday, March 12, 2011
Sustainable Wood High-Rise in Australia
http://www.theage.com.au/victoria/wooden-highrise-to-bring-cheers-to-old-brewery-site-20110227-1ba1p.html
The use of wood as a sustainable structural material is increasing as the industry moves toward the use of life-cycle assessment to determine a materials 'green' properties. For this structure, wood will ultimately be responsible for insulating the building and providing a power source, in addition to being the material of choice for the structural framing.
The use of wood as a sustainable structural material is increasing as the industry moves toward the use of life-cycle assessment to determine a materials 'green' properties. For this structure, wood will ultimately be responsible for insulating the building and providing a power source, in addition to being the material of choice for the structural framing.
Wednesday, February 23, 2011
The Mullions are just not that bad.
In our last installement, we looked at some rather unfortunate mullions framed in a stairwell. Let's take a close look at the framing around the wall. The upper portion of the wall is gable framed above trusses that bear at the top plate. This is good because it allows the trusses to brace the top plate for out-of-plane wind resistance. To lessen the axial load on the wall, a three-ply beam spanning the width of the stairwell was placed approximately 3-4ft inside the exterior wall. Somehow, someone missed a few inches of framing, which resulted in the trusses NOT bearing on the exterior wall. If the trusses do not bear on the wall, how can they brace the wall to resist out-of-plane wind pressure?
Wednesday, February 16, 2011
Mulligan for Mullions
It has been a while since I looked at this picture, but I remember this condition quite well. As some context, this condition occurs at the fourth floor level of a stairwell. This wall condition spans from the roof framing down to the intermediate landing between the third and fourth floor. If we look a bit closer, as in the photo below, we can see that only two studs run the full wall height at each side of the window. This project was located in a region with a wind speed of 100mph. As is, this condition required remediation to the mullions and the header-mullion connections to satisfy design requirements. Had the mullions between the windows been constructed full height, instead of spanning between the headers, the load path would be easier to follow and require less remediation.
Monday, February 7, 2011
Unbearable!
I do feel bad about not getting a second post for January. I had a slight delay due to the birth of my first child. My little girl weighed in at 6lb 11oz and made it into this world 13 days before her due date, which coincidentally was today. I will try to make up for the lapse in posting with two pictures in one post. (Yes I know, it is cheating when it shows the same thing.)
As the title hints, the corner of this wall is not actually bearing on the slab. Since this corner is at a shearwall (hopefully the hold down anchor was installed after this visit), at some point during its life this stud pack will see a compression load. Will this cause the building to fail? Most likely not. It will cause the interior gypsum board to buckle. That would sure be a mess to clean up.
A second picture below better indicates the true gap between the sill plate and the slab. You can also see separation between some studs and the sill plate. If someone were to tighten the anchor bolts to cinch the sill plate to the slab, more separation could occur, which does not correct the problem. You could fill the gap with an epoxy grout. This building uses prefabricated walls which should be fabricated to the correct height. If you fill the gap, what happens at the top of the wall?
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