Journal of Polymer and Biopolymer Physics Chemistry, 2014, Vol. 2, No. 2, 37-43 Available online at http: pubs.sciepub.com jpbpc 2 2 2 © Science and Education Publishing DOI:[removed]jpbpc[removed]Mark-Houwink Parameter - Intrinsic equation - Document - PDFSEARCH.IO - Document Search Engine

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	Journal of Polymer and Biopolymer Physics Chemistry, 2014, Vol. 2, No. 2, 37-43 Available online at http://pubs.sciepub.com/jpbpc/2/2/2 © Science and Education Publishing DOI:[removed]jpbpc[removed]Mark-Houwink Parameter Add to Reading List Open Document File Size: 194,55 KB Share Result on Facebook City Berlin / Article / Leipzig / / Company Oxford University Press / Intrinsic Viscosity Measurements / Prentice-Hall / Britannia Lab / Capillary Viscometry Solutions / Pectin / Takara / Experimental Review / Akapol SA / Sigma / John Wiley & Sons / / Country Croatia / Argentina / / / IndustryTerm polymer solution / acceptable product / dilute solutions / iterative mathematical processing / water solution / polymer solutions / aqueous solutions / rubber / chemical / aqueous solution / ethylene glycol solutions / energy / / Organization Argentine Chemical Society / Oxford University / Universidad Nacional / Instituto de Física Aplicada / / Person Martin Alberto Masuelli / García de la Torre / Mark-Houwink Parameters / Min Larng Tsai / Carlo Erba / Qing Shen / Wei Yu / Liang Chen / Rahmat Sadeghi / Jos T. F. Hydrodynamic / Rehana Saeed / Julius Springer / Min Lang Tsai / Fahim Uddin / Arshad Fazal / Cristian Omar / Mohammed Taghi Zafarani-Moattar / Wei Yu Chen / Maria Gabriela / Rong Huei Chen / Martin Alberto / / Position author / *Corresponding author / representative / / Product Huggins / polyethylene glycol / / PublishedMedium Journal of Food Science / / Technology BioMaterials / Thermodynamics / / URL http / SocialTag Physical chemistry Viscosity Polymers Fluid dynamics Mark–Houwink equation Measuring instruments Intrinsic viscosity Polymer Theta solvent Chemistry