Penguineer
Mechanical
Hello,
I have a welded structure that I modeled using surface bodies. All bodies intersect at what would be welded joints and all lines are split to ensure node-to-node bonding. Something I typically see with models like these is that I have relatively high stress right where one of the members terminates into another, particularly at the curved portion. I sense that this is not a realistic hot-spot and that it has something to do with the math model, but I don't know how to explain it. Could someone provide me an explanation as to why I see higher stresses where the geometry transitions from a straight section into a curved section? Your help is most appreciated.
The first attachment is the joint as modeled with the intersection highlighted. The second attachment shows the nodal VM stress.
Thanks!
I have a welded structure that I modeled using surface bodies. All bodies intersect at what would be welded joints and all lines are split to ensure node-to-node bonding. Something I typically see with models like these is that I have relatively high stress right where one of the members terminates into another, particularly at the curved portion. I sense that this is not a realistic hot-spot and that it has something to do with the math model, but I don't know how to explain it. Could someone provide me an explanation as to why I see higher stresses where the geometry transitions from a straight section into a curved section? Your help is most appreciated.
The first attachment is the joint as modeled with the intersection highlighted. The second attachment shows the nodal VM stress.
Thanks!