Polymer solution

Polymer solutions are solutions containing dissolved polymers.[1] These may be liquid solutions (e.g. in aqueous solution), or solid solutions (e.g. a substance which has been plasticized).[2]

The introduction into the polymer of small amounts of a solvent (plasticizer) reduces the temperature of glass transition, the yield temperature, and the viscosity of a melt. [3] An understanding of the thermodynamics of a polymer solution is critical to prediction of its behavior in manufacturing processes — for example, its shrinkage or expansion in injection molding processes, or whether pigments and solvents will mix evenly with a polymer in the manufacture of paints and coatings.[4] A recent theory on the viscosity of polymer solutions gives a physical explanation for various well-known empirical relations and numerical values including the Huggins constant, but reveals also novel simple concentration and molar mass dependence.[5]

  1. ^ Teraoka, Iwao (2002). Polymer solutions: an introduction to physical properties (PDF). John Wiley & Sons. ISBN 978-0-471-38929-3.
  2. ^ Chemical Fabrics and Film Association [CFFA] (n.d.). "Plasticizer migration" (PDF). CFFA Performance Products Division. Archived (PDF) from the original on February 14, 2017. Retrieved August 11, 2017.
  3. ^ "Polymer solutions".
  4. ^ Danner, Ronald P.; High, Martin S. (1993). Handbook of polymer solution thermodynamics. New York: Design Institute for Physical Property Data (DIPPR), American Institute of Chemical Engineers (AIChE). ISBN 0-8169-0579-7.
  5. ^ Schubert, Dirk W. (2020). "Novel Theoretical Self-Consistent Mean-Field Approach to Describe the Conductivity of Carbon Fiber-Filled Thermoplastics: Part III—Application of the Concept to Mechanical Properties of Composites and Polymer Solutions". Advanced Engineering Materials. 22 (9): 2000171. doi:10.1002/adem.202000171. ISSN 1438-1656.