In this paper the helical flows of fractionalized Maxwell fluid model, through a circular cylinder, is studied.The motion is produced by the cylinder that at the initial moment begins to rotate around its axis with an angular velocity Omegatp, and to slide along the same axis with linear velocity Utp.The solutions that have been obtained using Laplace and finite Hankel transforms 1139 and presented in series form in terms of the newly defined special function M(z), satisfy all imposed initial and boundary conditions.
Moreover, the corresponding solutions for ordinary Maxwell and Newtonian fluid obtained as special cases of the present general solution.Finally, the influence of various pertinent parameters on fluid motion as well as the comparison among different fluids axle rod models is analyzed by graphical illustrations.