![]() ![]() There is a brutal reality to that opinion. "the length of time any structural element has been standing has absolutely nothing to do with it being adequate or safe". !(upload://ssT9V5t45yjlgXqiFRXL04eXtqw.gif) They usually get the point after changes and delays. As a designer and municipal inspector also, I see too many framing contractors just winging it on the engineered lumber. They should also call the person responsible for the design to clarify anything that is unclear. There is a brutal reality to that opinion.įramers, call your lumber dealer and ask for help ! " the length of time any structural element has been standing has absolutely nothing to do with it being adequate or safe". Fortunately, the house was condemned and posted, so nobody was there at the time it collapsed. Part of a house house collapsed about 2 weeks after I issued that report. even though it had been previously fully loaded. I have seen it first hand, and in one case after doing some calculations warned of a probable collapse of some main framing members in a house. A fully loaded structure that was not done correctly can just barely support that load, and at the same time weaken the structure to the point where the next full load will cause a collapse. I agree with ya in general, except for that one. If the support has been fully loaded in the past, which is normally the case in a resale house, and there is no apparent performance issue, it is probably okay even if it was not done to the book. I am absolutely amazed sometimes by how much thought goes into doing things wrong ![]() However, those prescriptive model code provisions can not be applied to engineered lumber (like LVL's and I-Joists) which requires a case-by-case evaluation due to the higher capacity and special requirements.įor engineered lumber, I think the best thing for an HI to do is look for visual indications of problems, and defer to an SE as Mike noted for anything beyond that. Those prescriptive provisions are fairly easy to apply for someone who understands framing. There is a big difference between “conventional lumber framing” and “engineered lumber framing”.įor conventional framing with typical solid sawn wood members, there are very prescriptive requirements in model building codes like the IRC related to allowable spans and suppport requirements for things like wood joists/rafters and wood headers/girders. They calculate LVL sizes all day.This post was automatically imported from our archived forum. That said, this situation sounds like something an engineer could knock out pretty quickly…especially those who work mainly in the residential sector. ![]() engineer will want do all calculations himself/herself. On the other hand… interesting to work out how to do it and see if the structural engineer comes up with the same answer! I doubt a structural engineer will just write “See Rhino, GH, Karamba model that the customer has supplied himself” and give you a big discount for saving time! It was frustrating because it looked like something I could have worked out myself but it was the calculations that bulding control want to see. I’m not 100% sure of this but I think you won’t save any money by doing this because for building regs you need to show the calculations for the beam done by a qualified structural engineer so even if you took a GH load analysis to a structural engineer they are unlikely to then give you a discount on the calculations that they would still have to do.įor every steel used in our house we got the spec sent back from the structural engineer straight away and when we paid the invoice we got the calculations.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |