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Artykuły w czasopismach na temat „Rheology”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 9 listopada 2024

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1

Hu, Hua. "Testing and Analysis on Dynamic Rheologic Characteristics of Soft Soil under Different Breadth Conditions of Dynamic Loading". Advanced Materials Research 838-841 (listopad 2013): 737–40. http://dx.doi.org/10.4028/www.scientific.net/amr.838-841.737.

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The practical investigating and theoretic analysis Indicates that the rheologic action of the soft rock-soil could be accelerated by the dynamic loading, which induces more geotechnical engineering accidents and geologic disasters. The samples of marine deposit soft soil are collected in xiamen, and the dynamic stress-strain, the rheologic strain-time etc rheologic characteristics curves under the different breadth of dynamic loading of sinusoidal variation are tested using dynamic-triaxial device. The rheologic characteristics, rheologic rate and rheologic acceleration varietal process of four different breadths are analyzed. The research results indicate that all the samples are the same varietal process from decelerate rheology, relatively stable rheology to accelerate rheology stage. The dynamic strain slow growth and the rheologic process is relatively stable when the breadth of dynamic loading is low stress ranges of 10~20kPa.When the breadth of dynamic loading exceed 40kPa, the dynamic strain rapid growth and the rheologic is accelerate process till the samples destroy. The research results have academic and actual signification for us to open out the dynamic rheologic mechanics characteristic, explore the accelerating rheologic laws and the rheologic destabilizing dynamic condition of soft rock-soil under dynamic loading.
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2

Oldag, Frank. "Rheologie im Emsland / Rheology in Emsland". Applied Rheology 2, nr 2 (1.06.1992): 91–94. http://dx.doi.org/10.2478/arh-1992-020207.

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3

Makhloufi, R., i M. Kröger. "Rheologie und Struktur / Rheology and Structure". Applied Rheology 6, nr 6 (1.12.1996): 278–80. http://dx.doi.org/10.2478/arh-1996-060611.

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4

Nakajima, Nobuyuki. "Academic Rheology and Industrial Rheology". Applied Rheology 9, nr 3 (1.06.1999): 116–25. http://dx.doi.org/10.1515/arh-2009-0009.

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Abstract This paper is an attempt to highlight the problems faced by industrial rheologists. The problems are far more complex than subjects of usual academic pursuit. Because of the lack of scientific methods in both theory and instruments, the industrial rheologist often resort to empirical approach such as a use of the processing machines for processability evaluation. More fundamental approach is desirable. The examples are taken from high density polyethylenes and the period was 1960-1970. Although industry found solutions to the problems, the fundamental understandings have not been developed sufficiently.
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5

Versmold, H. "Scattering from Shear-Ordered Dispersions". Applied Rheology 17, nr 1 (1.02.2007): 11412–1. http://dx.doi.org/10.1515/arh-2007-0002.

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Abstract Rheology is commonly used as a tool for analytics and quality control in latex technology. As soon as flow becomes essential for the structure measured in a scattering experiment we call it scattering from shear-ordered dispersions or rheologic scattering. In this paper it is shown that the structure of concentrated dispersions can with advantage be studied by scattering experiments. Theoretical and experimental aspects as well as examples of small-angle synchrotron x-ray and neutron scattering from colloidal dispersions, presented in the paper, are closely related to rheology.
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6

Zhang, Na, Jue Kou, Chunbao Sun i Yangge Zhu. "Oscillatory Rheology of Three-Phase Coal Froths: Effects of Ionic Strength". Processes 11, nr 9 (27.08.2023): 2569. http://dx.doi.org/10.3390/pr11092569.

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The rheologic properties of a three-phase coal froth are critical to understanding the interfacial properties that are associated with its stability. Due to the fragile nature of froth, oscillatory rheology was used to make sure that the froths were not damaged during measurement. To reveal the relationship between a coal froth’s rheology and its stability, oscillatory rheology was used in this study. The viscoelastic behaviors of coal froths were analyzed, which illustrated that the storage modulus (G′) of a coal froth is larger than its loss modulus (G″), showing that coal froth is solid-like. The complex viscosity of the coal froths decreased with an increase in angular frequency, meaning that coal froth is shear-thinning. The dependence of froth rheology on ionic strength was investigated, which showed that an increase in ionic strength led to an enhancement of the storage modulus G′, as well as a decrease in tanδ (G″/G′). The coal froths tended to be more rigid and viscous with an increase in ionic strength. The mechanism of the effect of ionic strength on froth rheology was explored using electrical double layers, cryo-SEM, and particle fractions. As the ionic strength increased, the thickness of the electrical double layer decreased, which strengthened the interaction between the particles in the froth; in addition, the solid fraction in the froth increased with an increase in the ionic strength, so the value of G′ and the froth’s stability both increased.
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7

Janmey, Paul A., i Manfred Schliwa. "Rheology". Current Biology 18, nr 15 (sierpień 2008): R639—R641. http://dx.doi.org/10.1016/j.cub.2008.05.001.

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8

Dewald, Erlwine. "Rochester 91: Reine Rheologie / Rochester 91: Rheology revisited". Applied Rheology 1, nr 4 (1.12.1991): 248–53. http://dx.doi.org/10.2478/arh-1991-010413.

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9

Oldag, Frank. "Rheologie klingt wie Theologie / Rheology sounds like theology". Applied Rheology 1, nr 4 (1.12.1991): 266–67. http://dx.doi.org/10.2478/arh-1991-010417.

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10

Lüben, Heinz E. "Rheologie auf dem Vormarsch / Rheology on the move". Applied Rheology 2, nr 1 (1.03.1992): 56–59. http://dx.doi.org/10.2478/arh-1992-020112.

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11

Dewald, Erlwine. "Mehr Rheologie indie Tribologie / More Rheology in Tribology". Applied Rheology 5, nr 4 (1.10.1995): 210–11. http://dx.doi.org/10.2478/arh-1995-050413.

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12

Kroger, Martin. "Rheologie von Tensidsystemen / The Rheology of Tenside Systems". Applied Rheology 6, nr 2 (1.04.1996): 83–85. http://dx.doi.org/10.2478/arh-1996-060210.

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13

Kroger, Martin. "XIIIth International Congress on Rheology - Rheology 2000". Applied Rheology 11, nr 2 (1.04.2001): 105–6. http://dx.doi.org/10.1515/arh-2001-0027.

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14

Dongre, R., J. Youtcheff i D. Anderson. "Mit Rheologie zu besseren Strassen / Better Roads Through Rheology". Applied Rheology 6, nr 2 (1.04.1996): 75–82. http://dx.doi.org/10.2478/arh-1996-060209.

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15

Umerova, Saide O., Iryna O. Dulina i Andrey V. Ragulya. "Rheology of plasticized polymer solutions". Epitoanyag - Journal of Silicate Based and Composite Materials 67, nr 4 (2015): 119–25. http://dx.doi.org/10.14382/epitoanyag-jsbcm.2015.19.

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16

Masubuchi, Yuichi. "Polymer Rheology". Seikei-Kakou 30, nr 7 (25.06.2018): 331–36. http://dx.doi.org/10.4325/seikeikakou.30.331.

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17

Gonçalves, Estela Vidal, i Suzana Caetano da Silva Lannes. "Chocolate rheology". Ciência e Tecnologia de Alimentos 30, nr 4 (grudzień 2010): 845–51. http://dx.doi.org/10.1590/s0101-20612010000400002.

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18

Burda, Zdzislaw, Malgorzata J. Krawczyk, Krzysztof Malarz i Malgorzata Snarska. "Wealth Rheology". Entropy 23, nr 7 (30.06.2021): 842. http://dx.doi.org/10.3390/e23070842.

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We study wealth rank correlations in a simple model of macroeconomy. To quantify rank correlations between wealth rankings at different times, we use Kendall’s τ and Spearman’s ρ, Goodman–Kruskal’s γ, and the lists’ overlap ratio. We show that the dynamics of wealth flow and the speed of reshuffling in the ranking list depend on parameters of the model controlling the wealth exchange rate and the wealth growth volatility. As an example of the rheology of wealth in real data, we analyze the lists of the richest people in Poland, Germany, the USA and the world.
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19

MASUBUCHI, Yuichi. "Rheology Simulations". Oleoscience 19, nr 11 (2019): 461–67. http://dx.doi.org/10.5650/oleoscience.19.461.

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20

Richtering, Walter. "Understanding Rheology". Applied Rheology 12, nr 5 (1.10.2002): 233. http://dx.doi.org/10.1515/arh-2002-0030.

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21

Dressler, Marco. "Computational Rheology". Applied Rheology 12, nr 6 (1.12.2002): 280–81. http://dx.doi.org/10.1515/arh-2002-0032.

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22

Block, H., i J. P. Kelly. "Electro-rheology". Journal of Physics D: Applied Physics 21, nr 12 (14.12.1988): 1661–77. http://dx.doi.org/10.1088/0022-3727/21/12/001.

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23

Benka, Stephen G. "Cytoskeleton rheology". Physics Today 68, nr 2 (luty 2015): 17. http://dx.doi.org/10.1063/pt.3.2677.

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24

DOI, Masao. "Interfacial Rheology". Journal of The Adhesion Society of Japan 47, nr 8 (2011): 317–22. http://dx.doi.org/10.11618/adhesion.47.317.

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25

Tanner, R. I., i R. S. Rivlin. "Engineering Rheology". Journal of Applied Mechanics 54, nr 2 (1.06.1987): 482. http://dx.doi.org/10.1115/1.3173055.

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26

Cristescu, N., i L. S. Costin. "Rock Rheology". Journal of Applied Mechanics 57, nr 3 (1.09.1990): 798. http://dx.doi.org/10.1115/1.2897103.

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27

Cogswell, F. N. "Rheology fundamentals". Composites Part A: Applied Science and Manufacturing 27, nr 1 (styczeń 1996): 72–73. http://dx.doi.org/10.1016/s1359-835x(96)90033-0.

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28

Alemán, J. V., J. L. Pelegrí i P. Sangrà. "Ocean rheology". Journal of Non-Newtonian Fluid Mechanics 133, nr 2-3 (luty 2006): 121–31. http://dx.doi.org/10.1016/j.jnnfm.2005.12.002.

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29

Warburton, Brian. "Interfacial rheology". Current Opinion in Colloid & Interface Science 1, nr 4 (sierpień 1996): 481–86. http://dx.doi.org/10.1016/s1359-0294(96)80116-6.

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30

Lequeux, François. "Emulsion rheology". Current Opinion in Colloid & Interface Science 3, nr 4 (sierpień 1998): 408–11. http://dx.doi.org/10.1016/s1359-0294(98)80057-5.

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31

Shiga, Takeshi, Nobuji Maeda i Kazunori Kon. "Erythrocyte rheology". Critical Reviews in Oncology/Hematology 10, nr 1 (styczeń 1990): 9–48. http://dx.doi.org/10.1016/1040-8428(90)90020-s.

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32

Dealy, John M. "Engineering Rheology". Journal of Non-Newtonian Fluid Mechanics 22, nr 1 (styczeń 1986): 121–23. http://dx.doi.org/10.1016/0377-0257(86)80008-8.

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33

Stuart, J. "Erythrocyte rheology." Journal of Clinical Pathology 38, nr 9 (1.09.1985): 965–77. http://dx.doi.org/10.1136/jcp.38.9.965.

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34

Colby, R. H., Christopher K. Ober, Jeffery R. Gillmor, Richard W. Connelly, Tony Duong, Giancarlo Galli i Michele Laus. "Smectic rheology". Rheologica Acta 36, nr 5 (31.10.1997): 498–504. http://dx.doi.org/10.1007/s003970050064.

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35

De Kee, Daniel, i Kurt F. Wissbrun. "Polymer Rheology". Physics Today 51, nr 6 (czerwiec 1998): 24–29. http://dx.doi.org/10.1063/1.882283.

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36

Colby, Ralph H., Christopher K. Ober, Jeffery R. Gillmor, Richard W. Connelly, Tony Duong, Giancarlo Galli i Michele Laus. "Smectic rheology". Rheologica Acta 36, nr 5 (1997): 498–504. http://dx.doi.org/10.1007/bf00368127.

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37

Caputo, Michele. "Threedimensional rheology". Rendiconti Lincei 2, nr 2 (czerwiec 1991): 97–105. http://dx.doi.org/10.1007/bf03001414.

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38

OSAKI, Kunihiro. "Polymer Processing and Rheology. Rheology of Branched Polymers." Kobunshi 47, nr 9 (1998): 662–64. http://dx.doi.org/10.1295/kobunshi.47.662.

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39

Jiang, Ling, Yu Juan Yang i Jia Jun Pan. "Research into the Influence of Dam Material’s Rheology on Stress and Deformation of a High CFRD". Advanced Materials Research 374-377 (październik 2011): 2287–90. http://dx.doi.org/10.4028/www.scientific.net/amr.374-377.2287.

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Existing research results have indicated that dam material’s rheology under a high stress state is quite evident. In order to study the influence of dam material’s rheology on the stress and deformation of a CFRD, a nine parameter power series rheology model is adopted to analyze the stress and deformation of a high CFRD considering the dam material’s rheology. Calculation results show that since an obvious increase in dam body’s deformation occurs after considering the rheology characteristics of rock-fills, dam body’s stress tends to relax. Rockfill’s rheology characteristics increases the deflection of a face slab to a certain degree, face slab’s slope and dam’s axial maximum tensile stresses rise somewhat as well. As for a high CFRD that face slabs are placed in stages and water impounds in stages, a proper rheology constitutive model is adopted to correctly simulate rock-fill’s rheology characteristics, and results from this modeling can be used for reference for the determination of dam’s filling schedule and face slab’s staged placing and have important meaning for correctly predicting dam’s stress and deformation.
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40

Ya Rudyak, V. "Rheology of nanofluids. Experiments and molecular dynamics modeling". Journal of Physics: Conference Series 2585, nr 1 (1.08.2023): 012009. http://dx.doi.org/10.1088/1742-6596/2585/1/012009.

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Abstract This article discusses the rheology of nanofluids with ordinary spherical particles. It has been shown that about a quarter of nanofluids at not too low concentrations turn out to be pseudo- or viscoplastic. Their rheology is well described by power-law fluid or Herschel–Bulkley models. To study the mechanism of rheology change, the method of nonequilibrium molecular dynamics is used. It is established that the change in rheology has a threshold character. Critical values of the shear rates of rheology change and their dependence on the concentration of nanoparticles, their size and material are found. It is shown that the change in rheology is accompanied by a change in the structure of the studied fluids, which is illustrated by the corresponding radial distribution functions.
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41

Wang, Lei, i Chao Li. "A Brief Review of Pulp and Froth Rheology in Mineral Flotation". Journal of Chemistry 2020 (8.02.2020): 1–16. http://dx.doi.org/10.1155/2020/3894542.

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In mineral flotation, rheological problems have limited the efficient upgrading of low-grade and complex ores. Since pulp and froth rheology are deemed to play different roles in influencing the separation performance, in this paper, a brief review on pulp and froth rheology in flotation is provided, with an objective of developing a basic understanding of rheology in flotation. The essential variables that affect the rheology of a flotation pulp and froth are discussed. The methods for measuring pulp and froth rheology are presented. The correlations of pulp and froth rheological properties to flotation performance are reviewed. Strategies that are currently used to mitigate the deleterious effects of problematic ores in flotation are also provided for flotation optimization. Research gaps are also proposed to highlight the need of further exploration of flotation rheology in future.
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42

Matsumiya, Yumi, Hiroshi Watanabe, Kentaro Abe, Yasuki Matsumura, Fumito Tani, Yasuo Kase, Shojiro Kikkawa, Yasushi Suzuki i Nanase Ishii. "Rheology of Nano-Cellulose Fiber Suspension". Nihon Reoroji Gakkaishi 45, nr 1 (2016): 3–11. http://dx.doi.org/10.1678/rheology.45.3.

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43

Kang, Dukman, Doyoung Moon i Wooseok Kim. "Changes in Rheological Properties of Mortars with Steel Slags and Steel Fibers by Magnetic Field". Materials 14, nr 14 (17.07.2021): 4005. http://dx.doi.org/10.3390/ma14144005.

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The effect of a magnetic field on the rheology of mortars with steel slags and fibers was evaluated in this study. The rheology of the mortar measured with and without a magnetic field was compared. The effect of steel fiber addition to normal and steel slag mortars, mix ratio and size of steel fibers, and magnetic field formation position on rheology were evaluated. Steel fiber addition increased the yield stress and viscosity of the normal and steel slag mortars. The increased rheology was almost restored because of the magnetic field applied to the normal mortars. However, the increased rheology of the steel slag mortars with steel fibers was restored only upon the application of the magnetic field, whose position was continuously changed by a power relay. It is deduced that the alignment of the steel fibers by the magnetic field contributes to the rheology reduction of the mortars. However, in the case of steel slag mortar, experimental results demonstrated that steel slag, which is a ferromagnetic material, receives constant force by the magnetic field, which increases the rheology. This is evidenced by the decrease in the rheology of steel slag mortars under a continuously changing magnetic field formation position by power relay.
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44

Pelipenko, Jan, Julijana Kristl, Romana Rošic, Saša Baumgartner i Petra Kocbek. "Interfacial rheology: An overview of measuring techniques and its role in dispersions and electrospinning". Acta Pharmaceutica 62, nr 2 (1.06.2012): 123–40. http://dx.doi.org/10.2478/v10007-012-0018-x.

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Interfacial rheology: An overview of measuring techniques and its role in dispersions and electrospinning Interfacial rheological properties have yet to be thoroughly explored. Only recently, methods have been introduced that provide sufficient sensitivity to reliably determine viscoelastic interfacial properties. In general, interfacial rheology describes the relationship between the deformation of an interface and the stresses exerted on it. Due to the variety in deformations of the interfacial layer (shear and expansions or compressions), the field of interfacial rheology is divided into the subcategories of shear and dilatational rheology. While shear rheology is primarily linked to the long-term stability of dispersions, dilatational rheology provides information regarding short-term stability. Interfacial rheological characteristics become relevant in systems with large interfacial areas, such as emulsions and foams, and in processes that lead to a large increase in the interfacial area, such as electrospinning of nanofibers.
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45

Kang, C. G., P. K. Seo i J. W. Bae. "Computer Aided Simulation of the Rheology Forging Process for Aluminum Alloys and its Experimental Investigation". Key Engineering Materials 340-341 (czerwiec 2007): 611–18. http://dx.doi.org/10.4028/www.scientific.net/kem.340-341.611.

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Rheology forming is a novel processing method of semi-solid processing, which is different from traditional mold forging and conventional casting process. The rheological behavior of metallic alloys containing both solid and liquid phases was investigated with the low and high solid fraction ranges. Its obvious advantages are easier to produce complex work pieces because of excellent forming ability, more flexible to shape, and more compact in the inner quality for its high pressure. This research paper presents the theory of the rheology forming process and the results of the finite element simulation of rheology forming for aluminum alloys. In this proposed theoretical models for the rheology forming process involve simultaneous calculations performed with solid phase deformation and the liquid phase flow analysis. To analyze the rheology process, the new flow stress curves of rheology aluminum alloys and the viscosity for the simulation of two-phase flow phenomena have been proposed with as a function of temperature.
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46

Bothner, Hege, i Ove Wik. "Rheology of Hyaluronate". Acta Oto-Laryngologica 104, sup442 (styczeń 1987): 25–30. http://dx.doi.org/10.3109/00016488709102834.

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47

Rasulov, S. R., i G. I. Kelbaliev. "Oil emulsions rheology". Equipment and Technologies for Oil and Gas Complex, nr 5 (2019): 64–69. http://dx.doi.org/10.33285/1999-6934-2019-5(113)-64-69.

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48

Watanabe, Hiroshi. "Rheology and Rheometry". Seikei-Kakou 18, nr 9 (20.09.2006): 676. http://dx.doi.org/10.4325/seikeikakou.18.676.

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49

Jaensson, Nick O., Patrick D. Anderson i Jan Vermant. "Computational interfacial rheology". Journal of Non-Newtonian Fluid Mechanics 290 (kwiecień 2021): 104507. http://dx.doi.org/10.1016/j.jnnfm.2021.104507.

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50

Kawasaki, Takeshi, i Akira Onuki. "Rheology of Solids". Nihon Reoroji Gakkaishi 40, nr 3 (2012): 151–55. http://dx.doi.org/10.1678/rheology.40.151.

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