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Books on the topic 'Polymer in dilute solution'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Huang, Jin. Extensional viscosity of dilute polymer solutions. Ottawa: National Library of Canada, 1999.

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2

Radwan, Mostafa Abdel-Salam. Characterisation of neutral and Zwitterionic polymers in dilute solution. Salford: University of Salford, 1991.

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3

Chanson, H. Drag reduction in self-aerated flows: Analogy with dilute polymer solutions and sediment laden flows. Brisbane: University of Queensland, Dept. of Civil Engineering, 1992.

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4

Chanson, H. Drag reduction in self-aerated flows: Analogy with dilute polymer solutions and sediment laden flows. Brisbane: Department of Civil Engineering, University of Queensland, 1992.

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5

Hao, Wen. Polymer solution data collection. Frankfurt/Main, Germany: DECHEMA, 1992.

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6

1959-, High Martin S., ed. Handbook of polymer solution thermodynamics. New York: Design Institute for Physical Property Data, American Institute of Chemical Engineers, 1993.

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7

Phillies, George D. J. Phenomenology of polymer solution dynamics. Cambridge: Cambridge University Press, 2011.

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8

Danner, Ronald P., and Martin S. High. Handbook of Polymer Solution Thermodynamics. Hoboken, NJ, USA: John Wiley & Sons, Inc., 1993. http://dx.doi.org/10.1002/9780470938232.

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9

Saaid, I. Mohd. Recovery of metal from dilute solution using porous electrode. Manchester: UMIST, 1998.

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10

Cloizeaux, Jacques Des. Polymers in solution: Their modelling and structure. Oxford: Clarendon Press, 1990.

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11

Dadmun, M. D., W. Alexander Van Hook, Donald W. Noid, Yuri B. Melnichenko, and Bobby G. Sumpter, eds. Computational Studies, Nanotechnology, and Solution Thermodynamics of Polymer Systems. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/b114579.

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12

Gooda, Shaban Ragab. Solution properties of polyelectrolytes and of a new water-soluble neutral polymer. Salford: University ofSalford, 1992.

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13

Rudolph, Martin. Nanoparticle-polymer-composites: The solution and spray drying process with an emphasis on colloidal interactions. Freiberg: Technische Universität Bergakademie, 2013.

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14

Hydrodynamics of dilute rouse polymer solutions under flow. 1988.

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15

McLean, Brian D. Pre-sheared extensional flow of dilute polymer solutions. 1985.

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16

Prendergast, James Francis *. Measurements of non-Newtonian hole pressure errors for dilute solutions of drag reducing polymers. 1989.

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17

Phenomenology of Polymer Solution Dynamics. Cambridge University Press, 2008.

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18

Danner, Ronald P., and Martin S. High. Handbook of Polymer Solution Thermodynamics. American Institute of Chemical Engineers, 2010.

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19

Wang, Chih-Yee Jerry. Computer simulations of polyethylene single crystal growth from dilute solution. 1987.

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20

Polymers In Solution Their Modelling And Structure. Oxford University Press, 2010.

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21

Mitchell, Richard S. Using Volumetric Glassware to Measure, Dilute, and Titrate an Acid Solution. Chemical Education Resources, 1992.

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22

Determination of the viscosity number of thermoplastics in dilute solution; polyamides (PA). Washington D.C: National Aeronautics and Space Administration, 1985.

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23

Structure Formation in Solution : Ionic Polymers and Colloidal Particles. Springer, 2005.

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24

Cloizeaux, Jacques Des. Polymers in solution: Their modelling and structure. Clarendon, 1990.

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25

(Translator), J. des Cloizeaux, ed. Polymers in Solution: Their Modelling and Structure. Oxford University Press, USA, 1991.

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26

(Editor), Mark D. Dadmun, W. Alexander Van Hook (Editor), Donald W. Noid (Editor), Yuri B. Melnichenko (Editor), and Robert G. Sumpter (Editor), eds. Computational Studies, Nanotechnology, and Solution Thermodynamics of Polymer Systems. Springer, 2001.

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27

Dadmun, Mark D. "Computational Studies, Nanotechnology, and Solution Thermodynamics of Polymer Systems". Springer, 2010.

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28

Yitzhak, Rabin, and Polymer Flow Interaction Workshop (1985 : La Jolla Institute), eds. Polymer-flow interaction (La Jolla Institute, 1985). New York: American Institute of Physics, 1985.

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29

Jin, Xiaokui. Base inclinations for synthetic nucleic acids in solution. 1993.

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30

C, Forsman William, ed. Polymers in solution: Theoretical considerationsand newer methods of characterization. New York: Plenum, 1986.

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31

Kawasaki, K. Formation And Dynamics Of Self-organized Structures In Surfactants And Polymer Solutions: RECENT ADVANCES (PROGRESS IN COLLOID & POLYMER SCIENCE). Edited by K. Kawasaki. STEINKOPFF: DARMSTADT, 1997.

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32

C, Forsman William, ed. Polymers in solution: Theoretical considerations and newer methods of characterization. New York: Plenum, 1986.

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33

K, Kawasaki, Lindman Björn 1942-, Okabayashi H, Nagoya Kōgyō Daigaku, and International Symposium on Colloid and Polymer Science (1996 : Nagoya Institute of Technology), eds. Formation and dynamics of self-organized structures in surfactants and polymer solutions. Darmstadt: Steinkopff, 1997.

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34

Cooper, Stuart L. Polymer Biomaterials in Solution, As Interfaces And As Solids: A Festschrift Honoring the 60th Birthday of Dr. Allan S. Hoffman. Brill Academic Publishers, 1995.

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35

N, Cheng H., English Alan D. 1947-, American Chemical Society. Division of Polymer Chemistry, and American Chemical Society Meeting, eds. NMR spectroscopy of polymers in solution and in the solid state. Washington, D.C: American Chemical Society, 2002.

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36

Cheng, H. N., and Alan D. English. NMR Spectroscopy of Polymers in Solution and in the Solid State (Acs Symposium Series). An American Chemical Society Publication, 2002.

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37

Plastics in Automotive Engineering 2016. VDI Verlag, 2016. http://dx.doi.org/10.51202/9783182443438.

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Abstract:
The lightness of design Lines and curves make the pavilion a dynamic and trimmed sculpture whose characteristics derive from the brand image of the vehicle manufacturer. Uniform, matt stainless steel sheets wrap the body shell seamlessly. In a similar way to monocoque design, which is used in lightweight construction in the automotive and aircraft industries, the space-creating shell of the building takes over the load-bearing function. A total of 620 stainless steel covering sheets with welded-on stiffening ribs were prefabricated in a shipyard in Stralsund and assembled on site Table of contents conference proceedings 5 Anspruchsvolle Oberflächen und Leichtbau in der Instrumententafel des neuen Volkswagen Tiguan Mielke, R. / Dierks, P. | 201 19 3D Simulation für den Leichtbau in der kunststoffverarbeitenden Industrie Kurz, M. | 2016 31 Neuartige PUR-Oberflächen. Selbstheilend und mehr Kleba, I. / Emig, J. | 2016 47 Mono-polymer lift-gate solution cuts CO2 emissions Liraut, ...
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38

Furst, Eric M., and Todd M. Squires. Microrheology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199655205.001.0001.

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Abstract:
We present a comprehensive overview of microrheology, emphasizing the underlying theory, practical aspects of its implementation, and current applications to rheological studies in academic and industrial laboratories. Key methods and techniques are examined, including important considerations to be made with respect to the materials most amenable to microrheological characterization and pitfalls to avoid in measurements and analysis. The fundamental principles of all microrheology experiments are presented, including the nature of colloidal probes and their movement in fluids, soft solids, and viscoelastic materials. Microrheology is divided into two general areas, depending on whether the probe is driven into motion by thermal forces (passive), or by an external force (active). We present the theory and practice of passive microrheology, including an in-depth examination of the Generalized Stokes-Einstein Relation (GSER). We carefully treat the assumptions that must be made for these techniques to work, and what happens when the underlying assumptions are violated. Experimental methods covered in detail include particle tracking microrheology, tracer particle microrheology using dynamic light scattering and diffusing wave spectroscopy, and laser tracking microrheology. Second, we discuss the theory and practice of active microrheology, focusing specifically on the potential and limitations of extending microrheology to measurements of non-linear rheological properties, like yielding and shear-thinning. Practical aspects of magnetic and optical tweezer measurements are preseted. Finally, we highlight important applications of microrheology, including measurements of gelation, degradation, high-throughput rheology, protein solution viscosities, and polymer dynamics.
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