A nonsimilar moving-wall boundary-layer problem

“…It is often tacitly assumed that the sheet is inextensible, but situations may arise in the polymer industry in which it is necessary to deal with a stretching plastic sheet, as pointed out by McCormack and Crane [3]. Danberg and Fansler [4] investigated the non-similar solution for the flow in the boundary layer past a wall that is stretched with a velocity proportional to the distance along the wall, the free-stream velocity being constant. Gupta and Gupta [5] analysed the heat and mass transfer corresponding to the similarity solution for the boundary layer over a stretching sheet subjected to suction or blowing.…”

Flow of a viscoelastic fluid over a stretching sheet

“…It is often tacitly assumed that the sheet is inextensible, but situations may arise in the polymer industry in which it is necessary to deal with a stretching plastic sheet, as pointed out by McCormack and Crane [3]. Danberg and Fansler [4] investigated the non-similar solution for the flow in the boundary layer past a wall that is stretched with a velocity proportional to the distance along the wall, the free-stream velocity being constant. Gupta and Gupta [5] analysed the heat and mass transfer corresponding to the similarity solution for the boundary layer over a stretching sheet subjected to suction or blowing.…”

Flow of a viscoelastic fluid over a stretching sheet

“…A counterpart to this problem in which the free stream velocity is constant and the wall is being stretched with a velocity proportional to x (x being the distance along the wall) was recently investigated by Danberg and Fansler [2],…”

“…In the present paper we extend a specialized case of [2] to consider an electrically conducting fluid permeated by a uniform transverse magnetic field, the motion being caused solely by the stretching of the wall. A similarity solution for the velocity and heat transfer characteristics in the flow with uniform suction at the wall is obtained.…”

Hydromagnetic flow and heat transfer over a stretching sheet

“…Erickson [5] studied this problem to the case in which the transverse velocity at the moving surface is nonzero with the effects of heat and mass transfer being taken in to account. Danberg and Fansler [6], by using non-similar solution method, studied the flow inside the boundary layer past a wall that is stretched with a velocity proportional to the distance along the wall. Gupta and Gupta [7] by using the similar solution method analysed heat and mass transfer in the boundary layer over a stretching sheet subject to suction or blowing.…”

Radiation Effects on MHD Boundary Layer Flow of Liquid Metal Over a Porous Stretching Surface in Porous Medium With Heat Generation