SLIDING FRICTION IN CONTACTS WITH ONE- AND TWO-DIMENSIONAL VISCOELASTIC FOUNDATIONS AND VISCOELASTIC HALF-SPACE
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Moore D.F., Geyer W., 1974, A review of hysteresis theories for elastomers, Wear, 30(1), pp. 1-34.
Papangelo, A., Ciavarella, M., 2022, Viscoelastic dissipation in repeated normal indentation of an Hertzian profile, International Journal of Solid and Structures, 236-237, 111362.
Popov, V.L., 2017, Contact Mechanics and Friction: Physical Principles and Applications, Springer Berlin, 391 p.
Wineman, A.S., Rajagopal, K.R., 2000, Mechanical Response of Polymers. An Introduction, Cambridge University Press, 317 p.
Forstenhäusler, M., López-Guerra, E.A., Solares, S.D., 2021, Guidelines to simulate viscoelastic materials with an arbitrary number of characteristic times in the context of atomic force microscopy, Facta Universitatis, Series: Mechanical Engineering, 19(1), pp. 133-153.
Hunter, S.C., 1961, The rolling contact of a rigid cylinder with a viscoelastic half space, Journal of Applied Mechanics, 28(4), pp. 611-617.
Menga, N., Putignano, C., Carbone, G., Demelio, G.P., 2014, The sliding contact of a rigid wavy surface with a viscoelastic half-space, Proceedings of the Royal Society A, 470, 20140392.
Ciavarella, M., Papangelo, A., 2019, Some simple results on the multiscale viscoelastic friction, Facta Universitatis Series Mechanical Engineering, 17(2), pp. 191-205.
Carbone, G., Mandriota, C., Menga, N., 2022, Theory of viscoelastic adhesion and friction, Extreme Mechanics Letters, 56, 101877.
Johnson, K.L., 1985, Contact Mechanics, Cambridge University Press.
May, W.D., Morris, E.L., Atack, D., 1959, Rolling friction of a hard cylinder over a viscoelastic material, Journal of Applied Physics, 30(11), pp. 1713-1724.
Flom, D.G., Bueche, A.M., 1959, Theory of rolling friction for spheres, Journal of Applied Physics, 30(11), pp. 1725-1730.
Pöschel, T., Schwager, T., Brilliantov, N.V., 1999, Rolling friction of a hard cylinder on a viscous plane, European Physical Journal B: Condensed Matter and Complex Systems, 10, pp. 169-174.
Martinez-Martinez, D., van der Pal, J.P., Pei, Y.T., De Hosson, J.Th.M., 2011, Performance of diamond-like carbon-protected rubber under cyclic friction. II. Influence of substrate viscoelasticity on the friction evolution, Journal of Applied Physics, 110, 124907.
Nakano, K., Kono, M., 2020, Transient and steady sliding friction of elastomers: Impact of vertical lift, Frontiers in Mechanical Engineering, 6, 38.
Watanabe, T., Hatanaka, S., Nakano, K., 2023, Dimensionless numbers and master curves for sliding friction from the Kelvin-Voigt viscoelasticity of solids, Tribology Online, 18(6), pp. 406-416.
Watanabe, T., Nakano, K., 2024, Two origins for bell-shaped velocity-dependent friction coefficient: Kelvin-Voigt or standard linear solid viscoelasticity, Tribology Online, 19(3), pp. 167-177.
Popov, V.L., Heß, M., Willert, E., 2019, Handbook of Contact Mechanics. Exact Solutions of Axisymmetric Contact Problems, Springer Berlin.
Grosch, K.A., 1963, The relation between the friction and visco-elastic properties of rubber, Proceedings of the Royal Society A, 274(1356), pp. 21-39.
Heinrich, G., 1997, Hysteresis friction of sliding rubbers on rough and fractal surfaces, Rubber Chemistry and Technology, 70(1), pp. 1-14.
Persson, B.N.J., 1998, On the theory of rubber friction, Surface Science, 401(3), pp. 445-454.
Persson, B.N.J., Tosatti, E., 2000, Qualitative theory of rubber friction and wear, The Journal of Chemical Physics, 112(4), pp. 2021-2029.
Kürschner, S., 2014, Friction between a rigid body and a model elastomer having a linear viscous rheology, ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift Für Angewandte Mathematik und Mechanik, 95(8), pp. 822-830.
Kusche, S., 2016, Frictional force between a rotationally symmetric indenter and a viscoelastic half-space, ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift Für Angewandte Mathematik Und Mechanik, 97(2), pp.226-239.
Persson, B.N.J., 2000, Sliding Friction: Physical Principles and Applications, Springer-Verlag Berlin.
Thompson, D.J., Jones, C.J.C., 2000, A review of the modelling of wheel/rail noise generation, Journal of Sound and Vibration, 231(3), pp. 519-536.
Nakano, K., 2006, Two dimensionless parameters controlling the occurrence of stick-slip motion in a 1-DOF system with Coulomb friction, Tribology Letters, 24(2), pp. 91-98.
Kado, N., Tadokoro, C., Nakano, K., 2014, Kinetic friction coefficient measured in tribotesting: Influence of frictional vibration, Tribology Online, 9(2), pp. 63-70.
Kim, J.W., Joo, B.S., Jang, H., 2019, The effect of contact area on velocity weakening of the friction coefficient and friction instability: A case study on brake friction materials, Tribology International, 135, pp. 38-45.
Nakano, K., Popov, V.L., 2020, Dynamic stiction without static friction: The role of friction vector rotation, Physical Review E, 102(6), 063001.
Papangelo, A., Putignano, C., Hoffmann, N., 2020, Self-excited vibrations due to viscoelastic interactions, Mechanical Systems and Signal Processing, 144, 106894.
Pal, A., Restrepo, V., Goswami, D., Martinez, R.V., 2021, Exploiting mechanical instabilities in soft robotics: Control, sensing, and actuation, Advanced Materials, 33(19), 2006939.
DOI: https://doi.org/10.22190/FUME240322020W
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