UmarMakhzumi

Hi Asif, Glad to have you on the forum. Welcome aboard. Thanks.

FEMA P-2012/2018 Assessing Seismic Performance of Buildings with Configuration Irregularities is now available. Thanks. FEMA_P-2012_508.pdf Source: https://www.fema.gov/media-library-data/1551300980344-8e2d825576db50c85ea48448ede5bd90/FEMA_P-2012_508.pdf

High water table (where the water is at or in close proximity to the base of foundation) would result in reduction of bearing capacity. Generally, geotechnical reports provide a factor to apply to bearing capacity values for such cases and the factor can vary from situation to situation. For example, on one project where I was working the geotechnical report directed to reduce the allowable foundation bearing pressure where water table is less than 1m below the foundation bearing grade. So, consult with your geotech and ask for the foundation bearing capacity reduction factor. You can also look at the following link for more information: Thanks.

W.Salaam, Hazem, welcome aboard. Glad to have you here. Thanks.

Welcome aboard Atif. Glad to have you here. Thanks.

You can check the following resources too: ISC_ExamI1&2&3 Composite Beams.pdfTopic -Composite beams.pdf Links: https://www.engr.mun.ca/~adluri/courses/steel/ppt files1/Topic -Composite beams.pdf https://cee.umd.edu/~ccfu/ref/AISC_ExamI1&2&3.pdf Thanks.

Hafsa, Can you please explain what do you mean by composite beam as there are more than one ways to make a composite beam. Thanks

Cables can take axial load only. For difference between membrane and shell, there are a lot of existing discussion that you can look in the forum. Please use the search feature (on top right). Thanks.

Muneeb, Before I reply the question, I just want to confirm that by water proofing did you mean water reducing? if yes, then GGBS can reduce the amount of water required to achieve given concrete strength. Anyway, if you didn't mean that then please see the response below. Generally these questions should be refereed to the company providing the concrete mix design. Ask the concrete mix design company (or ask your contractor to get this answer for you) if the mix design being provided have equivalent water proofing property) as that provided by the admixture. You can provide them the admixture data sheet so they can do they comparison and let you know. I am not aware of any property of concrete that directly measures waterproofness. However, you might be able to establish co-relation if durability properties achieved are same with GGBS as with admixture. Thanks.

I am trying to find you an example. Meanwhile, if you have a round HSS, its fair to find the resultant moment (Mur = Square Root[ (Mux)^2 + (Muy)^2 ]) and improvise on Design Guide 1 example. I will post something as soon as I come across. Thanks.

The question is answered because the discussions are about what kind of torsion a beam can experience and what to do when that happens. As per the discussion even for cases where there is compatibility torsion, even if you don't provide any reinforcement, the moment gets re-distributed. Considering that, for your case of plinth beam that has zero torsion in first place, providing additional just in case rebars aren't doing anything. There is no minimum torsional reinforcement that you have to provide. It should be clear from discussion on compatibility and equilibrium torsion. Anyway, Canadian Code has a requirement for Skin Reinforcement for deep member. The requirement is to limit the formation of flexural cracks The requirement can be found in CSA A23.3-04. I can add some information there but it is not related to torsion and would be off topic. Similarly, ACI requires skin reinforcement on the tension half of beams greater than 36" deep. See 10.6.7 in ACI 318-02. On the same, professional engineers can do anything if their “judgement justifies” that. From diagonal Renata at slab ends to double meshed (full top and bottom reinforcement) on slabs to counter shrinkage, to crazy masonry detailing are things you will notice. None of this is wrong as long as it can be justified. Thanks.

If the moment in minor axis isn't big, you can find the resultant moment using square root of sum of squares and then use the AISC Design Guide 1 example. What structural member are you using for column? Is it HSS or W? Thanks.

Surendra, Please see this: Thanks.

Ahmad, There are a number of topics discussed that you can refer to on this topic. Try the following: Thanks.

I am not aware of the difference. You can model a beam/ deep beam using beam elements and then mode the swimming pool as slab? Let me know what you think. The picture above isn't clear. If you can explain what the framing and intent is, that would be great. Thanks.

There are solved examples in Design Guide 1: Base Plate and Anchor Rod Design (Second Edition) | American Institute of Steel Construction. https://www.aisc.org/Design-Guide-1-Base-Plate-and-Anchor-Rod-Design-Second-Edition#.XG7vylxKiUk You can also check your steel handbook or textbook for examples. Thanks.

These gensets aren't small. If vendor/ manufacturer suggests isolation pads, then you need to only worry about static design. Which is, the slabs on which these gensets are supported should be able to take the load. If that is not the case, and to answer your question about code regarding machine foundation, the document is: Now, if you have to do a dynamic design, the design would be somewhat complicated as the machine is located on 3rd floor of the building. I would advise going through the following threads to grasp an understanding of the fundamentals and then ask any questions that you may have. Regarding the calculation provided by mjnasir: The weight of each genset is 1478 kg, which is equal to 14.78 kN. Basically, he has added all the 3 gensets and considered the foundation pad (0.2m x 9.38m x 4.215) weight (assuming this foundation pad would support all 3 gensets). He has calculated the total weight of gensets and foundation pad on existing slab and divided by the area of slab. This is correct for static design as long as your slab can meet the strength and serviceability requirements under this new load and any existing load. Hope this helps. Thanks.

Saiful Islam, I like your curiosity and your question is good too. Generally for beams, if you wan to do 3-D modelling, solid elements should be used.The definition below would help you understand the difference: To simplify, shells elements are best for walls, slabs and modelling 3D elements where the thickness is smaller like surface elements. Hope this helps. Thanks.

For gensets, generally vibration pads are extensively used to isolate the machine from the pad assuming they are small (what categorizes as small is another discussion). These pads are generally provided with the gensets. Your mechanical engineer should review those. The only thing to look there is if the pads cater for the operating rpm/ frequency of gensets. Out of curiosity, what is the rpm and the horse power of the gensets that you are working on? Thanks.

Shear is generally resultant for force at a given point. Like beam shear is sum of all forces at a section. Similarly Story Shear refers to the net lateral load at a floor. ETABS might be defining story forces as net forces at a level and story shears as individual seismic shear for each floor (the opposite way). They can define it how they want, as long as they are referring to the same concept. Displacement has to be absolute as we are interested in stiffness. If you were interested in any serviceability limit state, then it could be relative for that limit state. But for stiffness, its absolute to base. Thanks.

You have raised a good point. Generally stiffness is applied force/ displacement for force required for a unit displacement. For seismic or any lateral loads, the loads sum up as you go from top to bottom. For for top floor, the stiffness is: Force at top floor/ displacement However, for the level below, the stiffness would be: Sum of Top Floor and level below lateral forces / displacement of that level. Let me know if this is still not clear and I can provide another example. Cheers!

Hi Anton, You need to create a free body diagram and do strength and deflection checks . For that, you will need some information from the architect like building plans to estimate mass per floor and structural framing drawings to idealize your structural for hand calcs. Thanks.

The attachment is very interesting and elaborate. Thanks for sharing that. I think you should go with the recommended iterations suggested by the vendor in the attachment. Start with an assumed U value and work your way to see if you meet the requirements. I would personally not worry about even considering the ductility of the structure when dampers are being used as ductility difference is significant. I am not aware but I would suggest going with the vendor suggested method as you are using a market product and adopting a different approach from what is recommended might end you up in liability issues if things go south. Thanks.

W/Salaam, Check these out Fatima: http://docs.csiamerica.com/manuals/etabs/Software Verification.pdf http://docs.csiamerica.com/manuals/sap2000/Verification/Title Page and Contents.pdf You can also find these manuals in the installation directory of ETABS and SAP2000, that is where I first saw them. Thanks.