Type(s) de contenu et mode(s) de consultation : Texte noté : électronique

Auteur(s) : Diebold, Michael P.  Voir les notices liées en tant qu'auteur

Titre(s) : Application of Light Scattering to Coatings [Texte électronique] : A User's Guide

Titre d'ensemble : Application of light scattering to coatings / Diebold, Michael P.

Édition : Online-Ausg

Publication : Cham : Springer International Publishing, 2014

Description matérielle : Online-Ressource (1 online resource (202 p.))

Collection : EBL-Schweitzer

Note(s) : Description based upon print version of record
Preface; Contents; Chapter-1; Scattering by a Single Particle; Overview; Introduction to Light Scattering; Scattering Mechanisms; The Nature of Light; The Effect of Particle Size and Light Wavelength; Light Scattering by a Single, Isolated Particle; Comparing Scattering Parameters; The Magnitude of Light Deflection; Light Scattering in Different Media; The Optimal TiO2 Particle Size; Undertone; Exotic Particle Architecture; Mie Limitations; Summary; References; Chapter-2; Scattering by Groups of Particles; Overview; The Need to go Beyond Mie Theory; Dependent Light Scattering ; PVC and TiO2 PVCThe CPVC; Crowding Versus Nonideal Spacing; Light Scattering in Paint Films; Points of Possible Confusion; STiO2 and Scoat; Causes and Control of Nonideal Spacing; State of TiO2 Dispersion; Resin Particle Size; Effect of Extender Particle Size on Nonideal Spacing; Formulating at High-Effective PVC; Nano-Spacers; The Optimal TiO2 Particle Size Revisited; Wet Hide; Summary; References; The Kubelka-Munk Framework and Measuring Opacity; Chapter-3; Overview; The Kubelka-Munk Equation; The Judd Graph; Opacity from Low-Quality TiO2 Pigments; Measuring Scattering Power ; Contrast RatioSpread Rate; Hiding Power at Equal Brightness; The Full Value of High-Quality TiO2; Computer-Assisted Spread Rate Determinations; Tint Strength; A Comparison Between Opacity Measurements; Summary; References; Chapter-4; TiO2 Pigments in Liquid Paints; Overview; Background; The Behavior of Small Particles; Forces Present Between Particles in the Liquid Paint; van der Waals Forces; Steric Forces; Electrostatic Forces; Dispersion of Small Particles into a Liquid; Paint Stabilization; Electrostatic Stabilization; In the Absence of Organic Dispersant; Electrostatic Dispersants ; Steric StabilizationA Comparison of Stabilization Methods; Surface Treatment of TiO2 Particles; The Drying Process; Quantifying Dispersion; Optical Techniques: Liquid Paints; Optical Techniques: Dry Paint Films; Microscopic Techniques: Dry Paint Films; Summary; References; Chapter-5; Effects of Extenders on Paint Optics Below the CPVC; Overview; Background; General Considerations When Using Extenders; Formulating with Extenders in Practice; Paint Constituents; Replacement of Resin by Type; Extender Use Below the CPVC; Small-Particle Extenders Replacing Resin ; Small-Particle Extenders Replacing PigmentLarge-Particle Extenders; Replacing One Extender Particle with Another; Revisiting the Effective PVC; Revisiting the Window Effect; Intermediate-Sized-Particle Extenders and Dilution Efficiency; Hollow Sphere Polymer and Flash-Calcined Clay; Summary; References; Chapter-6; Volume Relationships and the CPVC; Overview; Volume Relationships in Paint Films; Characterizing the Void Content of a Paint Film; Oiled Hide; Measuring the CPVC; Paint-Based Methods; OA and the CPVC; The Nonadditivity of OA and CPVC; The CPVC of Water-Borne Paints ; Solvent Versus Latex Paints ; The book begins with the fundamentals of light scattering, first by individual particles, then by small groups of particles, and finally by the trillions of particles present in a real-life paint film. From there, Dr. Diebold focuses on application of these fundamentals to paint formulation. The scope includes both theory and practice with an emphasis on application (from both performance and cost standpoints). The book gives a clear understanding of light scattering principles and application of these principles to paint formulation (with a focus on TiO2 - the strongest scattering material a

Sujet(s) : Génie chimique  Voir les notices liées en tant que sujet
Surfaces (physique)  Voir les notices liées en tant que sujet
Science des matériaux  Voir les notices liées en tant que sujet

Indice(s) Dewey :  620.11 (23e éd.) = Matériaux de l'ingénieur  Voir les notices liées en tant que sujet ; 621.89 (23e éd.) = Tribologie  Voir les notices liées en tant que sujet ; 620.112 23 (23e éd.) = Matériaux (ingénierie) - Biodégradation, corrosion, désagrégation  Voir les notices liées en tant que sujet

Identifiants, prix et caractéristiques : ISBN 9783319120157

Identifiant de la notice  : ark:/12148/cb44677825r

Notice n° :  FRBNF44677825 (notice reprise d'un réservoir extérieur)