![]() Both will account for all the criteria, but I think the way StruCalc does it makes it a little clearer. 2.0E GP Lam ® LVL Window and Patio Door Headers, Roof Only Roof Applications This table shows the size (e.g. They also divide beams into several categories, where beamcheck just has one. StruCalc has modules for columns (including lateral loads) and footings. Click the 'Calculate' button to perform the calculation. Input the applied load on the tubing in pounds. Input the wall thickness of the tubing in inches. Input the outer diameter of the tubing in inches. Beamcheck also only sizes beams, not footings, posts, etc. How to Use a Steel Tubing Span Calculator: Select the type of steel tubing (e.g., square or round). StruCalc appears to have more choices, and has all the data already included. I've never liked it that Beamcheck makes you enter the values for LVLs yourself. StruCalc is a little less user friendly interface, but appears to be much more complete than either ConstructionCalc or Beamcheck. A span options calculator allows selection of multiple species and grades for comparison purposes. Joists and rafter spans for common loading conditions can be determined. That means I had to downgrade my Excel Security settings from High to Medium. Performs calculations for ALL species and grades of commercially available softwood and hardwood lumber as found in the NDS 2018 Supplement. Another problem for me is that this software is written entirely as very sophisticated Excel Spreadsheets with unsigned macros. However, I think the loads calculator module, available separately, may be worth buying ($54 as a download) for those of you who have some trouble with that. Well, I've reviews both ConstructionCalc (purchased) and StruCalc (demo, not 100% functional).ĬonstructionCalc does not have all the LVL's I need. Being a PITA does not get your work done faster.īecause I am not licensed I can't get liability insurance nor do I charge as if I was licensed - so as much as I would like to learn how to size beams and footings - I am thinking I might be better off never touching that can of worms. Hence one need 12 inches thick LVL beam or 3-1/2 x 11-7/8 size up to span of 20 ft. Depth of Beam as per thumb rule (20 x 12) / 20 12 inches. Needless to say his project suddenly moved to the bottom of the pile. In order to calculate the beam depth and width as per the thumb rule take this example. I told him I'm not his project manager or an engineer and don't get paid nearly enough to do those services for him and he calmed down. SmartLVL14/15 Design Guide 2 1. Then he wanted me to put down in writing everything that might go wrong with his project! Then he FREAKED out and started complaining about stuff he was completely happy with a couple days ago. ![]() So I told the builder I don't do structural calcs on stick framing. (After some helpful guidance from a resident curmudgeon). This table shows the size of the LVL beam in inches and millimeters, as well as the maximum span that the beam can support in feet and meters. I was trying to do some simple calcs on a simple house but realized I was definitely over my head. Calculate: Click the 'Calculate' button to run the calculation. ![]() Input Data: Enter these values into the calculator fields. Seeking guidance from a structural engineer is imperative to ascertain the precise size and specifications required to ensure safety and adherence to regulations.This thread is SO timely! I was just wondering about these structural calc softwares. How to Use the LVL Beam Span Calculator: Gather Information: Know the LVL beams width, depth, and the load it needs to support. The dimensions of the beam will vary based on load considerations and the chosen material. To cover a 30-foot span, one can utilize either a multiple-ply 2×12 or opt for engineered wooden beams like LVL. Covers any span and every load with pin point accuracy. Enter LVL Beam Depth (in inches): Calculate. Calculate the size needed for a beam, girder, or header made from No. ![]() These beams are often custom-manufactured to precisely meet the specific requirements of your project. Calculate the span of an LVL beam based on its depth (in inches). As a general guideline, for a 30-foot span, it is typically recommended to use LVL beams with dimensions of 5-1/4″ × 13 1/2″ or 5-1/4″ × 16″. The size of LVL beams required for a 30-foot span is contingent on several factors, including the anticipated load and compliance with local building codes. Steel beams reign supreme in this domain, offering unmatched load-bearing capacity and durability. When spanning a 40-foot distance, the choice of I beam becomes crucial. Selecting the Optimal I Beam for a 40-foot Span
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