Add to ORKGAbstract. The stationary, isothermal rotational spinning process of fibers is considered. The investigations are concerned with the case of large Reynolds (± = 3/Re ¿ 1) and small Rossby numbers (\\\" ¿ 1). Modelling the fibers as a Newtonian fluid and applying slender body approximations, the process is described by a two–point boundary value problem of ODEs. The involved quantities are the coordinates of the fiber’s centerline, the fluid velocity and viscous stress. The inviscid case ± = 0 is discussed as a reference case. For the viscous case ± > 0 numerical simulations are carried out. Transfering some properties of the inviscid limit to the viscous case, analytical bounds for the initial viscous stress of the fiber are obtained. A good...
The rotational spinning of viscous jets is of interest in many industrial applications, including pe...
Fiber spinning and extrusion flow in general, of viscoelastic liquids through dies, are the primary ...
In contrast to isothermal fiber spinning, nonisothermal fiber spinning is a remarkably stable proces...
The stationary, isothermal rotational spinning process of fibers is considered. The investigations a...
We study the equations of isothermal fiber spinning under the assumption that viscous friction in th...
The fiber spinning process of a viscoelastic liquid modeled by the constitutive theory of the Maxwel...
This work deals with the mathematical modeling and numerical simulation of the dynamics of a curved ...
The optimal design of rotational production processes for glass wool manufacturing poses severe comp...
In this work, we give a global-in-time existence and uniqueness proof for solutions of the equations...
In this paper we extend the slender body theory for the dynamics of a curved inertial viscous Newton...
The one‐dimensional equations governing the formation of viscoelastic fibers using Giesekus constitu...
In many spinning processes, as for example in dry spinning, solvent evaporates out of the spun jets ...
A rotary spinning process is used to produce aramide fibers. In this process thin jets of polymer so...
The fiber spinning process of a viscoelastic liquid modeled by the constitutive theory of the Maxwel...
We develop a general regularized thin-fibre (string) model to predict the properties of non-Newtonia...
The rotational spinning of viscous jets is of interest in many industrial applications, including pe...
Fiber spinning and extrusion flow in general, of viscoelastic liquids through dies, are the primary ...
In contrast to isothermal fiber spinning, nonisothermal fiber spinning is a remarkably stable proces...
The stationary, isothermal rotational spinning process of fibers is considered. The investigations a...
We study the equations of isothermal fiber spinning under the assumption that viscous friction in th...
The fiber spinning process of a viscoelastic liquid modeled by the constitutive theory of the Maxwel...
This work deals with the mathematical modeling and numerical simulation of the dynamics of a curved ...
The optimal design of rotational production processes for glass wool manufacturing poses severe comp...
In this work, we give a global-in-time existence and uniqueness proof for solutions of the equations...
In this paper we extend the slender body theory for the dynamics of a curved inertial viscous Newton...
The one‐dimensional equations governing the formation of viscoelastic fibers using Giesekus constitu...
In many spinning processes, as for example in dry spinning, solvent evaporates out of the spun jets ...
A rotary spinning process is used to produce aramide fibers. In this process thin jets of polymer so...
The fiber spinning process of a viscoelastic liquid modeled by the constitutive theory of the Maxwel...
We develop a general regularized thin-fibre (string) model to predict the properties of non-Newtonia...
The rotational spinning of viscous jets is of interest in many industrial applications, including pe...
Fiber spinning and extrusion flow in general, of viscoelastic liquids through dies, are the primary ...
In contrast to isothermal fiber spinning, nonisothermal fiber spinning is a remarkably stable proces...