Thank you very much! That video is excellent. Could you please share the TEDDY file of [template] used for the graphic view mentioned at 10:00 in the video?
Hi Guido, great video. Could you please upload the "Temperature Visualization" script? As checking the temperature along the cross section is not currently possible in Sofistik, the script that you have created is a good workaround. Thanks in advance!
Thank you Guido! Great explanation and demonstration as always. It surprises me that SOFiSTiK does not have any built-in visualization for thermal gradient input. I am curious about one thing (well, I should've tried it out myself before asking, but maybe your explanation can help other users): In this example, we are defining some of the reference points along the left web of the cross section and the others at the centerline, would this definition also generate non-linear temperature distribution in the transverse direction? Or, does SOFiSTiK always only consider the non-linear distribution in the vertical direction?
Great question. I would also ask whether the points must be in an edge, or they could be anywhere inside the section (including holes). Thank you Guido, and looks great the script that generates the report visualization.
Hi, Thanks for your feedback and question. Honestly, I haven't tried it my self to place the points outside the cross-section/material. Will give it try when I'm back in office ;) The distribution is always vertical. So it doesn't matter if you place the points on the left or right web. I should have mention it in the video - So thanks again for the question!
Hi @@benitopelaez2417 and Guido, I tried once to define a reference point along the centreline of a steel-concrete composite box girder, using Teddy though. When running the AQUA module the software stopped and said there was some error. So, yes, probably we must make sure the points are within the defined polygon/solid.
One of my colleagues suggested another input option without using explicit points in the cross-section. Basically, you assign the temperature value by an eccentricity. www.sofistik.de/documentation/2022/en/tutorials/bridge-design/composite-bridge/composite-bridge-nl-temp.html
Thank you very much! That video is excellent. Could you please share the TEDDY file of [template] used for the graphic view mentioned at 10:00 in the video?
Hi Guido, great video. Could you please upload the "Temperature Visualization" script? As checking the temperature along the cross section is not currently possible in Sofistik, the script that you have created is a good workaround. Thanks in advance!
Thank You so much , please keep up the good work
Thank you!
Thank you Guido! Great explanation and demonstration as always. It surprises me that SOFiSTiK does not have any built-in visualization for thermal gradient input. I am curious about one thing (well, I should've tried it out myself before asking, but maybe your explanation can help other users): In this example, we are defining some of the reference points along the left web of the cross section and the others at the centerline, would this definition also generate non-linear temperature distribution in the transverse direction? Or, does SOFiSTiK always only consider the non-linear distribution in the vertical direction?
Great question. I would also ask whether the points must be in an edge, or they could be anywhere inside the section (including holes).
Thank you Guido, and looks great the script that generates the report visualization.
Hi, Thanks for your feedback and question. Honestly, I haven't tried it my self to place the points outside the cross-section/material. Will give it try when I'm back in office ;)
The distribution is always vertical. So it doesn't matter if you place the points on the left or right web. I should have mention it in the video - So thanks again for the question!
Hi @@benitopelaez2417 and Guido, I tried once to define a reference point along the centreline of a steel-concrete composite box girder, using Teddy though. When running the AQUA module the software stopped and said there was some error. So, yes, probably we must make sure the points are within the defined polygon/solid.
One of my colleagues suggested another input option without using explicit points in the cross-section. Basically, you assign the temperature value by an eccentricity.
www.sofistik.de/documentation/2022/en/tutorials/bridge-design/composite-bridge/composite-bridge-nl-temp.html
Thank You. Hope you are booking profits for your work.
Thanks DSK!