![]() That really would more than get the job done. Strap the TJIs together according to manufacturers specs and apply 5/8" sheathing. Attach to beam with simpson variable slope joist hangers and simson strap tied over the peak. In any case, if I were building this addition, I would do the following, and it wouldn't require engineered docs here because it is in accordance with the lumber manufacturers specs. Also, I usually lag screw the beams together. But if it makes you sleep better at night. A little 20' x 16' addition doesn't really need a beam that large. This is not a complicated engineering feat, but rather framing 101.ĥ.25x16" beam is very much overkill for the application. My suggestion to use the LVLs was based on the manufacturers specs, which is exactly what the engineer is going to use. Indeed, most places will require a stamped set of engineered documents for the roof anyway. What I am suggesting is that the OP is asking for advice on something that is very simple and typical of residential roof construction. Well I don't mean any disrespect for the rest of the pros around here at all. You'll also need a layer of 1/2" ply between the center two in order to fit the 3.5" thick beam you've just created. If you don't know what that is, picture four 2圆 studs nailed together with the center two being 12" shorter than the outer two. ![]() If the roof length increases to greater than 16' but still less than 20', then you'll need two 14" LVL beams instead.Ĭreate a beam pocket in a gable end, with a continuous run to a footer. In this case you'll be ok with two 11.875" LVL beams ganged together for the ridge beam. I'll assume a modest 6:12 pitch and being in northern Illinois I'm assuming a live load of 40#. Since you are suggesting using regular dimensional lumber I am going to assume that the length of the room is less than 16' and that the span width is your stated 20'. My #2 suggestion would be to use engineered lumber. Personally I hate it when I ask for advice on a certain method and all I get is alternate method advice, but just in case you were open to the easier alternatives. But the interior pitch won't match the exterior pitch. They will build them to code and they will be a much easier and faster install. So I will tell you what I would suggest as I have just a few extra moments here.Ĭonsider just using scissor trusses manufactured locally. That said, they will probably just refer you to the codes that won't tell you the particulars of what you are asking. * Lengths made to order, lead times apply.First a disclaimer: you should always check with the building department. For quality assurance the Futurebuild range is manufactured with independent audit processes and product certification.Īll Futurebuild LVL products are manufactured using a type ‘A’ bond with less than 0.5mg/L formaldehyde emissions from the final product (equivalent to E0). Characteristic Properties are determined in accordance with AS/NZS 4063.2:2010 and so comply with the provisions of the New Zealand Building Code through clause 2.3 for engineering design in accordance with NZS3603:1993 Timber Structures Standard.įuturebuild LVL is committed to manufacturing innovative engineered building products. Solid Futurebuild LVL products are manufactured in accordance with AS/NZS 4357, Structural Laminated Veneer Lumber. computeIT ®software suite available for specific engineering design.Supported by technical support and software from Futurebuild LVL.Residential Span Tables available - refer brochures below. ![]() Available Forest Stewardship Council® (FSC®) certified (FSC® C007103) upon request.Manufactured from sustainably-grown NZ plantation pine. ![]() Stringent quality control – EWPAA certified.Each piece is branded for ease of identification.Untreated and H3.1 LOSP treated product available made to order subject to minimum volumes and lead times, Contact us for further information.Readily available and stocked H1.2 treated using a glue line and surface spray treatment to the requirements of NZS 3640.Veneers are bonded together using type 'A' (marine) bond, known for long-term durability in structural applications.Straight, true, strong, lightweight and dimensionally stable.hySPAN is not intended to support brickwork or other heavy masonry products. hySPAN is suitable for all structural applications in residential, commercial, industrial and rural buildings subject to design verification. HySPAN ® laminated veneer lumber (LVL) is easy to work with using traditional building tools and is clearly branded for easy identification and your guarantee of quality. ![]()
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