Sunil237 Posted Wednesday at 14:32 Share Posted Wednesday at 14:32 Received my structural calcs today and I'm not so sure of the solution provided by the structural engineer. I have an extension going up which is 10m wide x 5.5m deep with a flat roof, and a bifold of 6.4m on the rear wall. The engineer has specified a length of 6.84m 250 x 150 x 8 RHS but it shows a deflection of 25mm which I'm concerned about as I need to minimise this for the bifold. Any suggestions on improvements? I have already suggested to make the steel longer as I'll be charged for 7.5m either way and the wall has plenty of space. thanks Link to comment Share on other sites More sharing options...
JohnMo Posted Wednesday at 14:43 Share Posted Wednesday at 14:43 Go back to structural engineer to seek clarification of the deflection? Link to comment Share on other sites More sharing options...
Sunil237 Posted Wednesday at 14:57 Author Share Posted Wednesday at 14:57 Thanks John, I have queried this with him but wanted external thoughts too Link to comment Share on other sites More sharing options...
markc Posted Wednesday at 15:07 Share Posted Wednesday at 15:07 As John said, plus RHS isn’t the best section to minimise deflection as the “flanges” are only 8mm top and bottom agains the added self weight of 16mm of web (2x8mm sides. yes a RHS looks better but it would really need a pre camber before install. Link to comment Share on other sites More sharing options...
nod Posted Wednesday at 15:22 Share Posted Wednesday at 15:22 The last two that we have done have been done with a 12 mill hit and miss welded plate on the bottom of the steel Which gives 0 deflection and has worked fine Hes probably probably added the deflection due to the lack of weight above it Which is no use to you Five mill of movement will cause the doors issues Link to comment Share on other sites More sharing options...
Conor Posted Wednesday at 15:39 Share Posted Wednesday at 15:39 Our engineer's solution was a 203SHS with 14mm plate welded to the bottom for 5mm deflection of 5m. Beam sat behind the insulation and only the steel plate formed a bridge. Link to comment Share on other sites More sharing options...
Sunil237 Posted Wednesday at 19:32 Author Share Posted Wednesday at 19:32 4 hours ago, markc said: As John said, plus RHS isn’t the best section to minimise deflection as the “flanges” are only 8mm top and bottom agains the added self weight of 16mm of web (2x8mm sides. yes a RHS looks better but it would really need a pre camber before install. What would be the better alternate type? Link to comment Share on other sites More sharing options...
Sunil237 Posted Wednesday at 19:35 Author Share Posted Wednesday at 19:35 That @nod and @Conor, in my calcs he did say a shelf plate is optional. I have asked him to include this. Am I summonsed to use the same thickness as the RHS or just go thicker? Link to comment Share on other sites More sharing options...
nod Posted Wednesday at 20:15 Share Posted Wednesday at 20:15 31 minutes ago, Sunil237 said: That @nod and @Conor, in my calcs he did say a shelf plate is optional. I have asked him to include this. Am I summonsed to use the same thickness as the RHS or just go thicker? No the span will have already dictated the the thickness of your steel We hit and miss welded plates on three sides at our previous build Six years on No cracks or movement 1 Link to comment Share on other sites More sharing options...
scottishjohn Posted Wednesday at 22:11 Share Posted Wednesday at 22:11 question why RHS and not RSJ of larger thickness material what is the attraction of a box beam? are the flat roof joists hanging on this as well? 8mm seems thin to me and not suprised at deflection in that length plus easy to to weld or bolt in extra thickness to centre of RSJ if still worried about deflection when all said and done it is the vertical part that gives the strength and flat plate is cheap and easy to fill with insulation Link to comment Share on other sites More sharing options...
markc Posted Wednesday at 22:21 Share Posted Wednesday at 22:21 2 hours ago, Sunil237 said: What would be the better alternate type? A UB (universal Beam) has a thin web (vertical) and thicker top and bottom flanges making it stiffer when vertically loaded. As mentioned above, adding a bottom plate to Box section will greatly improve its resistance to deflection because you are increasing the bottom flange Link to comment Share on other sites More sharing options...
scottishjohn Posted Wednesday at 22:31 Share Posted Wednesday at 22:31 1 minute ago, markc said: A UB (universal Beam) has a thin web (vertical) and thicker top and bottom flanges making it stiffer when vertically loaded. As mentioned above, adding a bottom plate to Box section will greatly improve its resistance to deflection because you are increasing the bottom flange I would respectfully disagree it is the centre web that gives the rigidity ,so height and thickness of that gives the strength ,top and bottom are to give it sideways rigidiity to keep centre web vertical even a plastic 12" ruler is stiff wehn on its edge try hitting your knuckles with it edge on ,then do same with it flat Link to comment Share on other sites More sharing options...
saveasteading Posted Wednesday at 23:02 Share Posted Wednesday at 23:02 23 minutes ago, scottishjohn said: It is the centre web that gives the rigidity , Sorry, no. The web (the central vertical bit) is there to keep the flanges apart. Then it has to resist deflection but that is secondary. Increasing the distance the flanges are apart increases the lever for the flanges, and making them thicker gives strength....but it's a class for another time. There is permanent deflection from the load above the beam, and that doesn't concern you ( it bends and stays put, and the door gear can be fixed kevel). Dynamic deflection from the doors moving is your concern. (Loading and unloading). There is no such thing as zero deflection. Thus it may well be ok, but probably needs clarification. 1 Link to comment Share on other sites More sharing options...
Iceverge Posted Thursday at 04:34 Share Posted Thursday at 04:34 I was always of the impression that in a horizontal "I* beam that the top and bottom sections did all the work. It's how in my head I explained this. The bid in the top was being squashed together, the bit at the bottom was being pulled apart and the bit in the middle was just making sure they stayed put. Without knowing the different yield strength of metals in compression and tension I do wonder why beams aren't built asymmetrically to gain maximum strength for minimal material. Link to comment Share on other sites More sharing options...
saveasteading Posted Thursday at 07:06 Share Posted Thursday at 07:06 (edited) 2 hours ago, Iceverge said: why beams aren't built asymmetrically to gain maximum strength for minimal material. They can be and are, for big structures. The standard ones are "hot rolled" through formers from a yellow hot balk of steel. But beams can be welded from flat plates which can be whatever thickness and width is required, in which case they don’t even have to be parallel. Your picture shows the possibility of increasing the web height from a hot rolled section. Castellated beams are cut to zigzag halves and moved relatively sideways and welded together. The weld is visible in your picture. The circle option is a prettier effect, with some offcut waste resulting. Very strong and allows services through. Also note plate girders on victorian bridges, made from flat steel plates riveted together. Edited Thursday at 07:10 by saveasteading 1 Link to comment Share on other sites More sharing options...
scottishjohn Posted Thursday at 07:52 Share Posted Thursday at 07:52 I guess we are not going to agree ,but even the picture you show above shows the centre web is biggest giving the strength the other picture with holes in the beam is to decrease weight as at its hieght it is big enogh to take the load as for victroisn bridges etc that was their only choice as no rolling mills or fancy steels and no welding Im sorry you are just wrong if load is vertical then a tall centre web will take the load in a thinner section tha huge flat plates at top and bottom of beams you dont believe me then do the steel rule test i suggested above and see how weight it will support if truly vertical and not allowed to bend sideways or look at a truck chassis the main beams are always about twice the height of the top and bottom plates and usally a C section again to save weight for load required even better look at a 100ton low loader chassis and see how that is made and they get serius loading with all the transient loads of roads or look at aircraft wing main spars plenty examples of what i am saying is true Link to comment Share on other sites More sharing options...
saveasteading Posted Thursday at 08:03 Share Posted Thursday at 08:03 1 minute ago, scottishjohn said: Im sorry you are just wrong @scottishjohnA relevant degree and 50 years working with steel buidings wasted? Maybe I'm explaining badly. I was expanding on the query by @Iceverge so maybe it doesn't coincide with your post. 3 minutes ago, scottishjohn said: biggest May be the confusion here. 8 minutes ago, scottishjohn said: if truly vertical Is the other confusing factor. It will buckle unless restrained. Link to comment Share on other sites More sharing options...
Sunil237 Posted Thursday at 08:55 Author Share Posted Thursday at 08:55 10 hours ago, markc said: A UB (universal Beam) has a thin web (vertical) and thicker top and bottom flanges making it stiffer when vertically loaded. As mentioned above, adding a bottom plate to Box section will greatly improve its resistance to deflection because you are increasing the bottom flange Thanks, I can see their thoughts on adding a plate 10 hours ago, scottishjohn said: question why RHS and not RSJ of larger thickness material what is the attraction of a box beam? are the flat roof joists hanging on this as well? 8mm seems thin to me and not suprised at deflection in that length plus easy to to weld or bolt in extra thickness to centre of RSJ if still worried about deflection when all said and done it is the vertical part that gives the strength and flat plate is cheap and easy to fill with insulation Not sure why they have suggested an RHS over RSJ, with the multiple opinions here about the two I will ask them to check which one is more suited for for my purpose. Yes flat roof joists will be mounted on this - using posijoists. thanks for the other info too Link to comment Share on other sites More sharing options...
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