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  1. Eng_Girl

    UCS to Shear Strength

    We have no info. Although we've done investigations during other projects in the area and we know the bedrock is typically slate, and the UCS would be 25 worst case scenario. Using that relationship I found the shear strength is roughly 14 Mpa.
  2. Eng_Girl

    UCS to Shear Strength

    I'm not a geotechnical engineer, so I wasn' sure how to relate the uniaxial Compressive strength to shear strength. I asked an AI and it gave me the following response. Is it legit?https://files.engineering.com/getfile.aspx?folder=e9d3f309-de11-4aa6-ac0a-54b5829de302&file=image.png
  3. Eng_Girl

    Retaining Wall Reinforcing

    Thanks for the replies! Yes A23.3 has that as well. So where my wall only 18" thick I wouldn't require skin reinforcing.
  4. Eng_Girl

    Retaining Wall Reinforcing

    Hi Everyone, I've never quite understood the concept of skin reinforcing. I understand it's purpose is to prevent surface cracks but I'm wondering if I need to supply skin reinforcing as well as flexural reinforcing. For context, I'm designing a retaining wall which has 25M @150 both ways each...
  5. Eng_Girl

    Size Factor in the Wood Design Manual

    Okay that makes sense now. Thank you!
  6. Eng_Girl

    Size Factor in the Wood Design Manual

    Yes, we also have a slenderness factor Kc which is used to consider buckling. So the size factor is there because the longer members have less strength?
  7. Eng_Girl

    Size Factor in the Wood Design Manual

    Hi everyone, In the Wood Design Manual there's a factor Kzc which is used to determine compressive capacity of sawn timber columns. The equation is as follows: Kzc = 6.3(dL)^-0.13 <= 1.3 or Kzc = 6.3(bL)^-0.13 <= 1.3 which ever is more This factor is to account for the size of the member to...
  8. Eng_Girl

    Hi everyone, I am designing a st

    Thanks for your replies! We did have a prefab option but it was extremely costly, double the price of getting it manufactured. In order to make the downstream plate thick enough it'd have to be 38 mm thick... It was too heavy so I had to use stiffeners. I followed a similar approach to the...
  9. Eng_Girl

    Hi everyone, I am designing a st

    Good point about the welds, I hadnt thought of that. The load is on the downstream angle so stiffeners arent needed on the upstream side.
  10. Eng_Girl

    Hi everyone, I am designing a st

    Hi everyone, I am designing a stoplog gain which is essentially a channel or in my case two angles bolted to a concrete wall which hold 10 x 10’s in place. See attached sketch. In this configuration I’m loading the flange of an angle. I have sized the angle flange based on bending and shear...
  11. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    I did find this, but it's not as reputable as I'd like. https://www.containerhandbuch.de/chb_e/stra/index.html?/chb_e/stra/stra_03_00.html
  12. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    Okay, that makes sense. Thank you for your advice!
  13. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    Okay, I'll revisit the wall capacity. And I have designed the footing to take the larger of the two loads, but I didn't want to underestimate the overturning of the container as a whole. The distributed moment was how I envisioned the global overturning. Maybe I'm over complicating things lol.
  14. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    This was my intial attempt but it seemed way too large...
  15. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    Maybe I'm misinterpreting it. What do you think of this:
  16. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    Hi Ryaneng, Thanks for the reply. Yes I have looked at the loading of the trusses on the walls. I Distributed the reactions from the trusses as a UDL of the walls and checked it for deflection. I then compare to ISO 1496 - 1:1990 (E) which said the allowable deflection was 25 mm (1") and my...
  17. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    I've also tried modelling it in SFrame. And these are my results.... about 50 knm at the support.
  18. Eng_Girl

    Eccentricity On Walls Transfer to Footings

    Hi all, I'm designing a footing for a Secan Building (uses a shipping container for two of the exterior walls). The Secan is supporting the roof load which produces an eccentricity on the container itself, see figure below. The forces in the figure are the reaction of one truss, and due to the...

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