Ron Mickovitch wrote: Hi Alan, The graph looks interesting but I cannot open the file using Prime 3.0. Thanks, Ron

Sorry, I don't have Prime 3. As Werner says, you should have a copy of M15 with Prime 3. For this task and extensions to multiple body models M15 is almost certainly better anyway. (thanks for supplying the pdf copy Werner).

My model certainly needs to be checked carefully - I haven't even done that myself yet! I probably won't have time now to do this and examine Fred's model in detail for a couple of days.

Note that my model assumes the vehicle stays on the track; it becomes invalid the moment the Normal force drops to zero. I should really model both x and z motion and see how the trajectory matches the track profile. I think I'll look at this option next.

I've now done a couple of checks and I'm pretty sure my calculation of the radius is highly inaccurate (not surprising given that numerical differentiation tends to be noisy, and my calculation of radius depends on 1st and 2nd derivatives!). It would be helpful if you could specify the radii as a function of horiziontal distance (that is, give the radii and the distances where they change from one to another. Or supply the piecewise functional form of the surface profile.

Alan

I've produced a modified version of my single-point model, with some checks - see attached for M15 worksheet and a pdf copy.

I'll now think about extending this to a multiple-point model to better represent an extended vehicle.

Alan

Hi Alan,

Thank you for moving forward on a solution.

Thanks,

Ron

The attached files now contain an extended model in which the forces are calculated assuming the vehicle is spread out along the surface to its full length (the full length of the vehicle, that is). The dynamics still use a single point model. This is probably as complicated a model as is appropriate here (famous last words!), though more accurate specifications of the surface profile and its radii might lead to small changes in the results.

Alan

Hi Alan,

Could you grapgically provide an example what you are looking foer here "specify the radii as a function of horiziontal distance"?

Thanks,

Ron

Ron Mickovitch wrote: Hi Alan, Could you grapgically provide an example what you are looking foer here "specify the radii as a function of horiziontal distance"? Thanks, Ron

On the very first diagram you provided you noted the radii of various sections (and lengths of straight sections). All I'm looking for is the same thing with the corresponding start and end x-values of each section.

Alan

Hi Alan,

Please see attachment. Let me know if this helps or if I have not provided the correct information.

thanks,

Ron

Ron Mickovitch wrote: Hi Alan, Please see attachment. Let me know if this helps or if I have not provided the correct information. thanks, Ron

Ok, I hope I've interpreted it correctly. Attached is the extended model with these radii.

Alan

Hi Alan,

The final graph looks realistic. If I read it correctly this plot would suggest the sled would not make it over on its own inertia? I would like to apply this math to a known live case I have to see the relation. Is it just a matter of replacing the table in the "Basic Data" with a different case study?

thanks,

Ron

Ron Mickovitch wrote: ... If I read it correctly this plot would suggest the sled would not make it over on its own inertia? ...

Correct. It depends strongly on other data though, like the initial velocity and the coefficient of friction. For example, if you reduce the coefficient of friction to 0.05 the vehicle goes much further - see image below for example.

.. I would like to apply this math to a known live case I have to see the relation. Is it just a matter of replacing the table in the "Basic Data" with a different case study?

Model validation. Excellent idea! You will need to alter all the relevant data as necessary. Profile (X-Z data), radii, mass and length of vehicle, coefficient of friction etc. You will probably need to alter the end time for the odesolve block and the initial guess for tau in finding the time the velocity reaches zero. If the validation vehicle reaches the end of the track there might be some other minor changes required (I didn't put a lot of thought into the end of the track as I could see the vehicle would get nowhere near it). I'd be very interested in seeing the results.

Alan

Hi Allan,

The results look great. If it is ok with you, I will be forward a new data set to run through. Your analysis is greatly appreciated.

Thanks,

Ron

Ron Mickovitch wrote: If it is ok with you, I will be forward a new data set to run through....

That's fine. I look forward to receiving it.

Alan

Hi Alan,

Working on the field data. Should have it early next week.

Thanks,

Ron