31 citations to https://www.mathnet.ru/eng/acms1
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I. B. Bakholdin, “Equations describing waves in tubes with elastic walls and numerical methods with low scheme dissipation”, Comput. Math. Math. Phys., 60:7 (2020), 1185–1198
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Yang Ye, Yang Liu, Ali Althobaiti, Yu-Xin Xie, “Localized bulging in an inflated bilayer tube of arbitrary thickness: Effects of the stiffness ratio and constitutive model”, International Journal of Solids and Structures, 176-177 (2019), 173
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Zhentao Zhao, Wenzheng Zhang, Hongwu Zhang, Xuegang Yuan, “Some interesting nonlinear dynamic behaviors of hyperelastic spherical membranes subjected to dynamic loads”, Acta Mech, 230:8 (2019), 3003
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Yang Liu, Yang Ye, Ali Althobaiti, Yu-Xin Xie, “Prevention of localized bulging in an inflated bilayer tube”, International Journal of Mechanical Sciences, 153-154 (2019), 359
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A T Il'ichev, “Dynamical stability of running solitary waves in fluid-filled elastic membrane tubes”, J. Phys.: Conf. Ser., 1099 (2018), 012018
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N. Varatharajan, Anirvan DasGupta, “Spectral stability of the bifurcation state of an arterial model with perivascular soft tissues”, Mechanics Research Communications, 91 (2018), 7
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I.B. Bakholdin, “Application of the theory of reversible discontinuities to the investigation of equations describing waves in tubes with elastic walls”, Journal of Applied Mathematics and Mechanics, 81:5 (2017), 409
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S. G. Chefranov, “Energy-optimal time-dependent regimes of viscous incompressible fluid flow”, Fluid Dyn, 52:2 (2017), 201
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Tihomir B. Ivanov, Elena V. Nikolova, Studies in Computational Intelligence, 681, Advanced Computing in Industrial Mathematics, 2017, 61
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I. B. Bakholdin, “Investigation of models that describe wave propagation in fluid-filled and gas-filled tubes with elastic walls”, Keldysh Institute preprints, 2017, 51–32