839-843 | Simulation of the motion of an individual erythrocyte in a narrow capillary | Z. P. Shul’man, A. A. Makhanek and S. A. Gubarev |
844-852 | Mesomorphism in polymers and its mechanotropic variety for polyethylene in binary polymer blends based on it | E. M. Antipov and J. W. M. Noordermeer |
853-858 | Partially crystallized elastomer as a nanocomposite model | M. F. Bukhina, N. M. Zorina and Yu. L. Morozov |
859-861 | Rheological properties of blood in the process of plasmapheresis | S. V. Vilanskaya |
862-870 | Relaxation thermodynamics and viscoelasticity of anisotropic polymer systems | V. S. Volkov |
871-877 | Influence of the structure of a modifier layer on the compatibility of polymers with a modified montmorillonite | V. A. Gerasin, F. N. Bakhov, N. D. Merekalova, Yu. M. Korolev and T. L. Zubova, et al. |
878-884 | Rheological studies of high-concentration cellulose sulfate-acetate solutions | D. D. Grinshpan, S. M. Tret’yakova, N. G. Tsygankova, S. E. Makarevich and T. A. Savitskaya |
885-891 | Shear strength of epoxypolysulfone glass-reinforced plastics in a wide range of loading rates | Yu. A. Gorbatkina, V. I. Solodilov, A. M. Kuperman, D. V. Pavlovskii and M. V. Shustov |
892-898 | Mesoscopic equation of state of polymer systems and description of the dynamic characteristics based on it | A. S. Gusev, M. A. Makarova and G. V. Pyshnograi |
899-906 | Mathematical modeling of the process compaction of wood | O. R. Dornyak |
907-915 | Identification of the nonlinear viscous properties of fluids by the vibrational method | I. V. Elyukhina and G. P. Vyatkin |
916-925 | Investigation and calculation of the stressed-strained state and compaction of viscoelastic disperse media as a result of relaxation processes | D. I. Zolotarevskaya and N. N. Ivantsova |
926-931 | Exfoliated clay-polyethylene nanocomposites obtained by in situ polymerization. Synthesis, structure, properties | A. V. Ivanyuk, V. A. Gerasin, A. V. Rebrov, R. G. Pavelko and E. M. Antipov |
932-939 | Dependence of the structure and properties of unfilled and filled compositions based on binary mixtures of hardenable thermoreactive resins on their formula | L. B. Kandyrin, L. K. Shcheulova, Hoang An Shon, A. P. Zaemskaya and V. N. Kuleznev |
940-947 | Use of electro-rheological fluids in a damping device | E. V. Korobko, M. L. Levin, V. A. Bilyk and A. E. Binshtok |
948-953 | Influence of fullerene on the rheological characteristics of melts of the polyamide composite forming the structure of a semi-interpenetrative polymer mesh | T. A. Kostereva, Yu. N. Panov, V. N. Artem’eva, N. V. Kukarkina and N. A. Nikanorova, et al. |
954-957 | Phenomenon of specific fiber formation in polypropylene/copolyamide mixtures containing polyethyleneglycol | E. P. Kuvaeva, M. V. Tsebrenko and N. M. Rezanova |
958-962 | Rheology of gelating systems | P. M. Pakhomov, S. D. Khiznyak, M. M. Ovchinnikov, M. V. Lavrienko and I. V. Malakhaev |
963-968 | Nonstationary flow of solutions of flexible-chain polymers in a porous medium | V. G. Pogrebnyak, V. S. Voloshin and N. V. Naumchuk |
969-974 | Simulation of the formation of a thermal-laser-action site on eye tissue | A. S. Podol’tsev |
975-982 | Mathematical model of strain of droplets of a dispersed-phase polymer in flow of molten polymer blends | V. G. Rezanova, Yu. V. Pridatchenko and M. V. Tsebrenko |
983-988 | Disturbance of the blood fluidity as a result of an experimental insult | N. A. Savina, O. A. Georginova, A. A. Shakhnazarov and I. A. Sokolova |
989-993 | Simulation of the rheological behavior of enterosorbents in the gastroenteric tract in vitro | T. A. Savitskaya, T. N. Nevar and D. D. Grinshpan |
994-997 | Properties of modified gelatins at an interface | M. A. Sakvarelidze, A. E. Kharlov and Z. D. Tulovskaya |
998-1001 | Experimental study of the strain of a polymer jet | O. I. Skul’skii, E. V. Slavnov, A. I. Sudakov and N. V. Shakirov |
1002-1005 | Rheological and thermal properties of the surface layer of liquids | B. D. Summ |
1006-1011 | Influence of inertial effects on the disintegration of the structure of disperse systems of the solid-phase-liquid-medium type | N. B. Ur’ev, I. V. Kuchin and E. A. Naumenko |
1012-1017 | Distinctive features of formation of the properties of certain polymer composite materials under the influence of wave action | V. N. Fomin, E. B. Malyukova and S. M. Mezhikovskii |
1018-1021 | Determination of the rheological properties of whole blood by the nonstationary method of pulsed changing of the rate of shear | Z. P. Shul’man and V. A. Mansurov |
1022-1028 | Influence of the temperature and oversouring of blood on its hemorheological properties | Z. P. Shul’man and A. A. Makhanek |
1029-1033 | Analysis of rheograms of the blood of patients with myocardial ischemia and type-2 diabetes mellitus with the use of a new model in the process of pharmaceutical therapy | I. V. Yamaikina, G. Kh. Tagkhizadekh and N. P. Mit’kovskaya |
1034-1039 | Investigation of cutting forces by the method of statistical planning of the experiment | A. I. Sagradyan |
1040-1045 | Heat-capacity anomaly in a wide vicinity of the critical point of the triethylamine—water phase transition | O. B. Ismailova, T. Kh. Akhmedov, Kh. T. Igamberdiev, Sh. I. Mamatkulov and A. A. Saidov, et al. |