In the first chapter the authors present an original method to calculate
the efficiency of the cams mechanisms. The second chapter presents an
original method in determining a general, dynamic and differential
equation for the motion of machines and mechanisms, particularized for
the mechanisms with rotation cams and followers. The third chapter
presents an original method to determine the general dynamics of
mechanisms with rotation cams and followers, particularized to the plate
translated follower. First, it presents the dynamics kinematics. Then it
solves the Lagrange equation and using an original dynamic model with
one degree of freedom, with variable internal amortization, it makes the
dynamic analysis. The fourth chapter briefly presents an original method
for determining the dynamics of mechanisms with rotation cam and
translated follower with roll. First, one presents the dynamics
kinematics. Then one performs the dynamic analysis of a few models, for
some movement laws, imposed on the follower, by the designed cam
profile. The fifth chapter presents an original method to determine the
dynamic parameters at the classic distribution, and a new method is
presented in the sixth chapter. The seventh chapter presents an original
method to determine the dynamic parameters at the camshaft with rotary
cam and translated follower with roll.