Peter Kindt scite author profile

Peter Kindt

5Publications

230Citation Statements Received

82Citation Statements Given

How they've been cited

221

224

How they cite others

134

Affiliations

Goodyear (Luxembourg), KU Leuven, University of Twente

Publications

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A single particle model to simulate the dynamics of entangled polymer melts

Kindt

Briels

2007

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We present a computer simulation model of polymer melts representing each chain as one single particle. Besides the position coordinate of each particle, we introduce a parameter n(ij) for each pair of particles i and j within a specified distance from each other. These numbers, called entanglement numbers, describe the deviation of the system of ignored coordinates from its equilibrium state for the given configuration of the centers of mass of the polymers. The deviations of the entanglement numbers from their equilibrium values give rise to transient forces, which, together with the conservative forces derived from the potential of mean force, govern the displacements of the particles. We have applied our model to a melt of C(800)H(1602) chains at 450 K and have found good agreement with experiments and more detailed simulations. Properties addressed in this paper are radial distribution functions, dynamic structure factors, and linear as well as nonlinear rheological properties.

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Experimental analysis of the structure-borne tyre/road noise due to road discontinuities

Kindt

Berckmans

Coninck

et al. 2009

Mechanical Systems and Signal Processing

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Development and validation of a three-dimensional ring-based structural tyre model

Kindt

Sas

Desmet

2009

Journal of Sound and Vibration

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The role of entanglements on the stability of microphase separated diblock copolymers in shear flow

Kindt

Briels

2008

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Various possible orientations of lamellar structures of diblock copolymers under shear are investigated with respect to their stability. A Brownian dynamics model is put forward in which each diblock is modeled as a dumbbell. The blobs in each dumbbell are held together by a finite extendable nonlinear elastic (FENE) potential and interact with all surrounding blobs by soft dissipative particle dynamics (DPD) potentials. In addition to this, the blobs have the possibility to entangle with each other. The corresponding interactions lead to large viscosities, which, however, quickly diminish with increasing shear rate. This fact turns out to be crucial for the stabilization of structures with the lamellae parallel to the velocity-vorticity plane. As a second result it is found that asymmetry in the entanglement interactions stimulates the actual reorientation into this state.

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Analytical solution for free vibrations of rotating cylindrical shells having free boundary conditions

Alujević

Campillo-Davó

Kindt

et al. 2017

Engineering Structures

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a b s t r a c tIn this paper free vibrations of rotating cylindrical shells with both ends free are studied. The model used also allows for considering a flexible foundation supporting the shell in the sense of a radial and circumferential distributed stiffness. Furthermore, a circumferential tension (hoop stress) which may be due to pressurisation or centrifugal forces is taken into account. Natural frequencies and mode shapes are determined exactly for both stationary shells and for shells rotating with a constant angular speed around the cylinder axis. Trigonometric functions are assumed for the circumferential mode shape profiles, and a sum of eight weighted exponential functions is assumed for the axial mode shape profiles. The functional form of the axial profiles is shown to greatly vary with the roots of a characteristic bi-quartic polynomial that occurs in the process of satisfying the equations of motion. In the previously published work it has been very often assumed that the roots are two real, two imaginary, and two pairs of complex conjugates. In the present study, a total of eight types of roots are shown to determine the whole set of mode shapes, either for stationary or for rotating shells. The results using the developed analytical model are compared with results of experimental studies and very good agreement is obtained. Also, a parametric study is carried out where effects of the elastic foundation stiffnesses and the rotation speed are examined.

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Peter Kindt

A single particle model to simulate the dynamics of entangled polymer melts

Experimental analysis of the structure-borne tyre/road noise due to road discontinuities

Development and validation of a three-dimensional ring-based structural tyre model

The role of entanglements on the stability of microphase separated diblock copolymers in shear flow

Analytical solution for free vibrations of rotating cylindrical shells having free boundary conditions

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