Thank you. Is it possible to probe (find out) a moment reaction on a rotational joint (or any jont) where I applied rotational velocity in RBD? After you applied a "remote force", how could you calculate "the necessary design torque (reaction)" to balance the moment caused by remote force instead of applying two moments to two revolutionary joints in your 4 bar linkage in demonstration section of the video 27:53.? As I experienced from Ansys RBD, when a rotational joint is free to rotate, no torque reaction is induced about this free axis. Should I apply additional constrain its rotational axis where I will take torque reaction? But if I constrained the rotational DOF, how could I apply rotational velocity (or any load) to this constrained axis (DOF)? Is there any easy way or technics to probe torque requirement (reaction)?
Thanks for great explanation
Thank you. Is it possible to probe (find out) a moment reaction on a rotational joint (or any jont) where I applied rotational velocity in RBD? After you applied a "remote force", how could you calculate "the necessary design torque (reaction)" to balance the moment caused by remote force instead of applying two moments to two revolutionary joints in your 4 bar linkage in demonstration section of the video 27:53.? As I experienced from Ansys RBD, when a rotational joint is free to rotate, no torque reaction is induced about this free axis. Should I apply additional constrain its rotational axis where I will take torque reaction? But if I constrained the rotational DOF, how could I apply rotational velocity (or any load) to this constrained axis (DOF)? Is there any easy way or technics to probe torque requirement (reaction)?
How can we apply friction to joints?