Polymers in Particulate Systems: Properties and Applications

Polymers in Particulate Systems: Properties and Applications

by Vincent Hackley
     
 

ISBN-10: 0824706781

ISBN-13: 9780824706784

Pub. Date: 11/28/2001

Publisher: Taylor & Francis

"Presents the latest research on the flow and structure of complex particulate sustemsions, the adsorption behavior of polymers, and the consolidation behavior and mechanical properties of films. Highlights recent advances in polymer functionality, conformation, and chemistry for biological, biomedical, and industrial applications."  See more details below

Overview

"Presents the latest research on the flow and structure of complex particulate sustemsions, the adsorption behavior of polymers, and the consolidation behavior and mechanical properties of films. Highlights recent advances in polymer functionality, conformation, and chemistry for biological, biomedical, and industrial applications."

Product Details

ISBN-13:
9780824706784
Publisher:
Taylor & Francis
Publication date:
11/28/2001
Series:
Surfactant Science Series, #104
Pages:
384
Product dimensions:
6.25(w) x 9.25(h) x 1.00(d)

Table of Contents

Part 1 Colloidal stability and polymer functionality: effect of physisorbed polymers on the interaction of latex particles and their dispersion stability; electrosteric stabilization mechanisms in nonaqueous high solids loading dispersions; depletion interactions produced by charged spheres and spheroids; role of polymer functionality in specific adsorption to oxides - a molecular recognition approach; monitoring of adsorbed polymer conformation in concentrated suspensions. Part 2 Rheology: shear and compressional rheology principles in ceramic processing; role of polymer adsorption and electrostatics in the viscosity of aqueous colloidal dispersions. Part 3 Processing and biomedical applications: colloid-filled polymer gels - a novel approach to ceramics fabrication; polymeric dispersants in concrete; polyelectrolyte adsorption in bioceramic systems - hydroxyapatite as a substrate material; soluble polymers in bioceramic systems.

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