I am enjoying reading your posts. I have been interested in building a trailer for over landing for a while.
I am a Mechanical Engineering student at WSU and I thought I would toss my two cents into the square tube orientation conversation. I would like to emphasize that I am just a student, but I might be able to provide some technical considerations.
First I would like to say that the stresses that square tube will experience will be largely affected by the area moment of inertia with respect to the neutral axis of bending. In simpler terms the amount of material that is further from a line running horizontally through the cross section. Off the top of my head I can tell you that for the flat orientation of the tube the moment of inertia will be (1/12 * Base length * Height of tube)-(1/12 * Inside base length * Inside Height). The rotated orientation is a little less common and it I would have to do some calculation to tell you what it is exactly. That said, I think that the flat orientation will most likely have the higher moment of inertia because it looks like there is more material further from the neutral axis, but I can't say for sure until I do the calcs. Just for clarity the configuration with the higher moment of inertia will resist more bending stress.
Now that I have said all that I think that you could make it either way and probably be fine. I haven't addressed the subject of the stress concentrations that the corners produce. I would say (educated guess) that the rotated design would most likely produce larger stress concentrations then the flat configuration.
I hope this has been helpful. I will, if I have time, calculate the moment of inertia for the other configuration.
I look forward to seeing how your design works.
Abe
I am a Mechanical Engineering student at WSU and I thought I would toss my two cents into the square tube orientation conversation. I would like to emphasize that I am just a student, but I might be able to provide some technical considerations.
First I would like to say that the stresses that square tube will experience will be largely affected by the area moment of inertia with respect to the neutral axis of bending. In simpler terms the amount of material that is further from a line running horizontally through the cross section. Off the top of my head I can tell you that for the flat orientation of the tube the moment of inertia will be (1/12 * Base length * Height of tube)-(1/12 * Inside base length * Inside Height). The rotated orientation is a little less common and it I would have to do some calculation to tell you what it is exactly. That said, I think that the flat orientation will most likely have the higher moment of inertia because it looks like there is more material further from the neutral axis, but I can't say for sure until I do the calcs. Just for clarity the configuration with the higher moment of inertia will resist more bending stress.
Now that I have said all that I think that you could make it either way and probably be fine. I haven't addressed the subject of the stress concentrations that the corners produce. I would say (educated guess) that the rotated design would most likely produce larger stress concentrations then the flat configuration.
I hope this has been helpful. I will, if I have time, calculate the moment of inertia for the other configuration.
I look forward to seeing how your design works.
Abe
