Hi Terry,

Thanks for the example sheet, do you have any additional information about what the sheet is doing at each stage. I am relatively new to the software and any additional information would surely be appreciated. 

Currently I have gone for this approach and obtained the correct shear force diagram but I would be interested to hear more about the sheet that you have provided. 

Best regards,

Callum

for example I can't see how the start and end points of the UDLs are calculated or do you convert the UDLs to a point load and only use the UDL's that act over the entire beam. 

Hi Callum,

In the file "Choose-UB" the uniform loads are only calculated for udl's over the full beam from 0 to L

In the file "220224-BeamAnalysis_v5-Two_Part_UDL" the loads are by definition of general type and can be partial over a span.

w1, w2 and A can be zero.

The shears are calculated in a more circumspect way.

Then by equations in terms of w1,w2,A,B

and finally filled with values by using the above function on each of the loads summed at each point along the beam

I will need some time to put comments in the files as I will be travelling.

Cheers

Terry

Hi Terry,

Thanks for getting back to me. I can follow most of what's going on in the sheet choose-UB but I am unsure on some of the calculations still. I am considering the following example:

Beam span L= 4m 

Point load one: 4 kN at 0.8 m

Point load two: 6 kN at 1.3m

Point load three: 8 kN at 2.8m 

There is a load factor of 1.35 applied to all the point loads. 

When I put these values into the formula on the mathcad sheet I get the following:

This is the same as the values obtained in my sheet which are as follows: 

This would suggest that the reaction force at x=0m is 13027.5N and the RHS x=4m is 11272.5N. However this would add up to greater than the total load applied to the beam: 18kN.

Thanks,

Callum 

My bad, I see the existing spreadsheet we use and I am comparing the results with I haven't included the load factor!

Good Morning Terry, 

I hope your travels are going well. I was just wondering if you could offer some advice on what the xx refers to in the conjugate beam method. I was under the impression with this method:

Moment on the real beam = Loading on the conjugate beam

Shear on the conjugate beam = slope (theta)

Moment on the conjugate beam = deflection 

I am unsure where the "xx" term comes from. 

Thanks,

Callum 

Hi Callum,

Finally in a hotel with WiFi.

"xx" is the variable that represents position along the conjugate beam between 0 and "L".  Same as "x" in calculation of Shears and Moments along the real beam between 0 and "L".

I did it to make this line more readable.

Cheers

Terry.

Hi Terry, 

Thanks for all your help. Appreciate it, I have attached a copy of the finished worksheet if you are interested in it but it may be of limited use as eurocode standard. I am looking to set up something similar for a cantilever beam. I think the shear force and moment diagrams will be easy enough to define piecewise but the conjugate beam method is fairly new to me. 

How would one go about this?

Hi Callum,

For a cantilever swap supports.

At fixed end there is no slope or deflection in real beam this means a free end in the conjugate beam with no shear or moment.

Free end of cantilever has deflection and slope in real beam so is a fixed end in the conjugate.

I will look at your file as it always valuable to see how others approach a problem.

Cheers

Terry