Partner: K.R. Rajagopal |
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Ostatnie publikacje
1. | Malek J.♦, Rajagopal K.R.♦, Tůma K., A thermodynamically compatible model for describing asphalt binders: solutions of problems, International Journal of Pavement Engineering, ISSN: 1029-8436, DOI: 10.1080/10298436.2015.1007575, Vol.17, No.6, pp.550-564, 2016 Streszczenie: In this sequel to the first paper (Málek et al., 2014. International Journal of Pavement Engineering), in which we identified a generalisation of the model due to Burgers which was corroborated against two sets of experiments, including a challenging one showing distinctly different relaxation times for shear and normal stresses, we solve several time-dependent boundary value problems wherein the boundary of the material is deforming, that have relevance to applications involving asphalt. Problems wherein the boundary is subject to time-varying compressive loads such as those due to moving automobiles and the attendant rutting, and the compaction due to rollers are considered in additions to other problems. Słowa kluczowe: rate type fluid, asphalt, finite element method, monolithic ALE method Afiliacje autorów:
| 25p. | ||||||||||||||||
2. | Malek J.♦, Rajagopal K.R.♦, Tůma K., On a variant of the Maxwell and Oldroyd-B models within the context of a thermodynamic basis, INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS, ISSN: 0020-7462, DOI: 10.1016/j.ijnonlinmec.2015.03.009, Vol.76, pp.42-47, 2015 Streszczenie: In this paper we develop models within a thermodynamic standpoint that are very similar in form to the classical Maxwell and Oldroyd-B models but differ from them in one important aspect, the manner in which they unload instantaneously from the deformed configuration. As long as the response is not instantaneous, the models that are derived cannot be differentiated from the Maxwell and Oldroyd-B models, respectively. The models can be viewed within the context of materials whose natural configuration evolves, the evolution being determined by the maximization of the rate of entropy production of the material. However, the underpinnings to develop the model are quite different from an earlier development by Rajagopal and Srinivasa [8] in that while the total response of the viscoelastic fluid satisfies the constraint of an incompressible material, the energy storage mechanism associated with the elastic response is allowed to be that for a compressible elastic solid and the dissipative mechanism associated with the viscous response allowed to be that for a compressible fluid, the total deformation however being isochoric. The analysis calls for a careful evaluation of firmly held customs in viscoelasticity wherein it is assumed that it is possible to subject a material to a purely instantaneous elastic response without any dissipation whatsoever. Finally, while the model developed by Rajagopal and Srinivasa [8] arises from the linearization of the non-linear elastic response that they chose and leads to a model wherein the instantaneous elastic response is isochoric, here we develop the model within the context of a different non-linear elastic response that need not be linearized but the instantaneous elastic response not necessarily being isochoric. Słowa kluczowe: Rate type fluid, Maxwell, Oldroyd-B, Compressible neo-Hookean, Thermodynamical compatibility Afiliacje autorów:
| 30p. | ||||||||||||||||
3. | Malek J.♦, Rajagopal K.R.♦, Tůma K.♦, A thermodynamically compatible model for describing the response of asphalt binders, International Journal of Pavement Engineering, ISSN: 1029-8436, DOI: 10.1080/10298436.2014.942860, Vol.16, No.4, pp.297-314, 2015 Streszczenie: In this paper, we develop a model from a thermodynamic standpoint that seems capable of describing the nonlinear response of asphalt binders. We test the efficacy of the model by comparing its predictions against two different sets of torsion experiments on asphalt binders. The first set of experiments that we use for corroborating the model was carried out by Narayan et al. [2012. Mechanics Research Communications, 43, 66–74] wherein for the first time it was found that the relaxation times associated with the torque and the normal forces, in a torsion experiment, are markedly different, and the second set of experiments that we use to corroborate the model documents the overshoot of torque in a torsion experiment [Krishnan and Narayan, 2007. Steady shear experiments on ashpalt. Chennai: IIT, Madras]. The model that is developed in this paper fits both sets of experiments well, and it seems to be a good candidate for describing the response of asphalt binders in general. As the deformation is nonlinear, it would be inappropriate to use the linearised viscoelastic model which is based on the linearised strain, and the models due to Maxwell, and the Oldroyd-B model are unable to capture the marked difference in the relaxation times, while the Burgers model is unable to describe the torque overshoot. Słowa kluczowe: stress relaxation, normal forces, torque, rate type fluid, asphalt, experiment fitting Afiliacje autorów:
| 25p. | ||||||||||||||||
4. | Hron J.♦, Rajagopal K.R.♦, Tůma K.♦, Flow of a Burgers fluid due to time varying loads on deforming boundaries, Journal of Non-Newtonian Fluid Mechanics, ISSN: 0377-0257, DOI: 10.1016/j.jnnfm.2014.05.005, Vol.210, pp.66-77, 2014 Streszczenie: In this paper we study three boundary-initial value problems within the context of four rate type viscoelastic constitutive models, the Maxwell model, the Oldroyd-B model, Burgers model and the generalized Burgers model. We consider challenging problems wherein the boundary is deforming with time. The flows lead to a complex system of partial differential equations that require the development of a robust numerical procedure based on the arbitrary Lagrangian–Eulerian method. Słowa kluczowe: Rate type fluid, Maxwell, Oldroyd-B, Burgers, Finite element method, Monolithic ALE method Afiliacje autorów:
| 30p. | ||||||||||||||||
5. | Hron J.♦, Kratochvil J.♦, Malek J.♦, Rajagopal K.R.♦, Tůma K.♦, A thermodynamically compatible rate type fluid to describe the response of asphalt, Mathematics and Computers in Simulation, ISSN: 0378-4754, DOI: 10.1016/j.matcom.2011.03.010, Vol.82, No.10, pp.1853-1873, 2012 Streszczenie: In this paper, we consider two models that have been recently developed from a thermodynamic standpoint and that are capable of describing the response of nonlinear viscoelastic fluids. We test the efficacy of both models by comparing their predictions against torsion experiments conducted for asphalt, a material that is notoriously difficult to model. Both the models seem to describe the response adequately, though neither is really very accurate. This should not be surprising as asphalt is a heterogenous material comprising of many components which is being homogenized and modeled as a single constituent viscoelastic fluid. Słowa kluczowe: Rate type fluid, Large deformation, Numerical simulation Afiliacje autorów:
| 20p. |