$Fundamentals of latex film formation : processes and properties /$

Fundamentals of latex film formation : processes and properties /

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Bibliographic Details
Author / Creator:	Keddie, Joseph L.
Imprint:	Dordrecht : Springer, c2010.
Description:	1 online resource (xviii, 308 p.) : ill.
Language:	English
Series:	Springer Laboratory Springer laboratory.
Subject:	Latex -- Surfaces. Latex -- Properties. Thin films. Polymer colloids. Polymer colloids. Thin films.
Format:	E-Resource Book
URL for this record:	http://pi.lib.uchicago.edu/1001/cat/bib/8893593

Hidden Bibliographic Details
Other authors / contributors:	Routh, Alexander Francis, 1972-
ISBN:	9789048128457 9048128455 9789048128440 9048128447
Notes:	Includes bibliographical references and index. Description based on print version record.
Other form:	Print version: Keddie, Joseph L. Fundamentals of latex film formation. Dordrecht : Springer, c2010 9789048128440 9048128447

MARC


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245	1	0	\|a Fundamentals of latex film formation : \|b processes and properties / \|c Joseph L. Keddie, Alexander F. Routh.
260			\|a Dordrecht : \|b Springer, \|c c2010.
300			\|a 1 online resource (xviii, 308 p.) : \|b ill.
336			\|a text \|b txt \|2 rdacontent \|0 http://id.loc.gov/vocabulary/contentTypes/txt
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338			\|a online resource \|b cr \|2 rdacarrier \|0 http://id.loc.gov/vocabulary/carriers/cr
490	1		\|a Springer Laboratory
504			\|a Includes bibliographical references and index.
588			\|a Description based on print version record.
505	0	0	\|a Note continued: \|t References -- \|g 4.1. \|t introduction -- \|g 4.2. \|t Driving Forces for Particle Deformation -- \|g 4.2.1. \|t Wet Sintering -- \|g 4.2.2. \|t Dry Sintering -- \|g 4.2.3. \|t Capillary Deformation -- \|g 4.2.4. \|t Capillary Rings -- \|g 4.2.5. \|t Sheetz Deformation -- \|g 4.3. \|t Particle Deformations -- \|g 4.3.1. \|t Hertz Theory [ -- ] Elastic Spheres with an Applied Load -- \|g 4.3.2. \|t JKR Theory Elastic Spheres with an Applied Load and Surface Tension -- \|g 4.3.3. \|t Frenkel Theory [ -- ] Viscous Spheres with Surface Tension -- \|g 4.3.4. \|t Viscoelastic Particles -- \|g 4.4. \|t Problem with Particle[-]Particle Approach -- \|g 4.4.1. \|t Routh and Russel Film Deformation Model -- \|g 4.5. \|t Deformation Maps -- \|g 4.5.1. \|t Wet Sintering -- \|g 4.5.2. \|t Capillary Deformation -- \|g 4.5.3. \|t Dry Sintering -- \|g 4.5.4. \|t Receding Water Front -- \|g 4.5.5. \|t Use of the Deformation Maps -- \|g 4.6. \|t Dimensional Argument for Figure 4.6 -- \|g 4.6.1. \|t Wet Sintering -- \|g 4.6.2. \|t Capillary Deformation -- \|g 4.6.3. \|t Dry Sintering -- \|g 4.6.4. \|t Sheetz Deformation -- \|g 4.7. \|t Effect of Temperature -- \|g 4.8. \|t Effect of Particle Size -- \|g 4.9. \|t Experimental Evidence for Deformation Mechanisms -- \|g 4.9.1. \|t Inferring Deformation Mechanisms from Water Distributions -- \|g 4.9.2. \|t Determination of Deformation Mechanisms Using an MFFT Bar and Optical Techniques -- \|g 4.9.3. \|t Microscopy of Particle Deformation -- \|g 4.9.4. \|t Scattering Techniques -- \|g 4.9.5. \|t Detection of Skin Formation -- \|t References -- \|g 5.1. \|t Essential Polymer Physics -- \|g 5.1.1. \|t Interface Width at Polymer-Polymer Interfaces -- \|g 5.1.2. \|t Polymer Reptation -- \|g 5.2. \|t Development of Mechanical Strength and Toughness -- \|g 5.2.1. \|t Dependence on the Density of Chains Crossing the Interface -- \|g 5.2.2. \|t Dependence on Interdiffusion Distance, A -- \|g 5.3. \|t Factors that Influence Diffusivity -- \|g 5.3.1. \|t Molecular Weight and Chain Branching -- \|g 5.3.2. \|t Temperature Dependence -- \|g 5.3.3. \|t Influence of Hard Particles -- \|g 5.3.4. \|t Latex Particle Size --
505	0	0	\|a Note continued: \|g 5.3.5. \|t Particle Structure and Hydrophilic Membranes -- \|g 5.4. \|t Faster Diffusion with Coalescing Aids -- \|g 5.5. \|t Simultaneous Crosslinking and Diffusion: Competing Effects -- \|t References -- \|g 6.1. \|t Introduction -- \|g 6.1.1. \|t Where Can Surfactant Go in a Dried Film? -- \|g 6.1.2. \|t Effect of Non-Uniform Surfactant Distributions -- \|g 6.1.3. \|t Mechanisms of Surfactant Transport -- \|g 6.2. \|t Adsorption Isotherms -- \|g 6.3. \|t Modelling of Surfactant Distribution during the Drying Stage -- \|g 6.4. \|t Effect of Surfactant's Vertical Distribution on Film Topography -- \|g 6.5. \|t Experimental Evidence for Surfactant Locations -- \|g 6.5.1. \|t Interfaces with Air and Substrates -- \|g 6.5.2. \|t Surfactant in the Bulk of the Film -- \|g 6.5.3. \|t Depth Profiling and Mapping -- \|g 6.6. \|t Reactive Surfactants -- \|g 6.6.1. \|t Reactive Surfactant Chemistry -- \|g 6.6.2. \|t Effect of Surfmers on Film Properties -- \|g 6.7. \|t Summary -- \|t References -- \|g 7.1. \|t Introduction -- \|g 7.1.1. \|t Properties of Nanocomposites -- \|g 7.1.2. \|t Applications of Colloidal Nanocomposites -- \|g 7.2. \|t Types of Hybrid Particles -- \|g 7.2.1. \|t Polymer-Polymer Hybrid Particles -- \|g 7.2.2. \|t Inorganic and Polymer Nanocomposite Particles -- \|g 7.2.3. \|t 'Self-Assembly' of Nanocomposite Particles by Precipitation or Flocculation of Pre-Formed Nanoparticles -- \|g 7.3. \|t Colloidal Particle Deposition and Assembly Methods -- \|g 7.3.1. \|t Deposition Methods -- \|g 7.3.2. \|t Vertical Deposition -- \|g 7.3.3. \|t Surface Pattern-Assisted Deposition -- \|g 7.3.4. \|t Long-Range Order from Self-Assembled Core-Shell Particles -- \|g 7.4. \|t Colloidal Nanocomposites from Particle Blends -- \|g 7.4.1. \|t Advantages of Particle Blends -- \|g 7.4.2. \|t Dispersion of Nanoparticles -- \|g 7.4.3. \|t Long-Range Order in Particle Blends -- \|g 7.5. \|t Three Lessons about the Properties of Waterborne Nanocomposite Films -- \|g 7.5.1. \|t Lesson One -- \|g 7.5.2. \|t Lesson Two -- \|g 7.5.3. \|t Lesson Three -- \|t References -- \|g 8.1. \|t Film Formation from Anisotropic Particles --
505	0	0	\|a Note continued: \|g 8.2. \|t Assembly of Particles over Large Length Scales -- \|g 8.3. \|t Technique Development -- \|g 8.4. \|t Nanocomposite Structure and Property Correlations -- \|g 8.5. \|t Interdiffusion of Polymers in Multiphase Particles -- \|g 8.6. \|t Templating Film Topography -- \|g 8.7. \|t Resolving the Film Formation Dilemma -- \|t References -- \|g A. \|t Derivation of Creeping Flow and the Result for Low Reynolds Number Flow Around a Sphere -- \|g A.1. \|t Derivation of Creeping Flow -- \|g A.2. \|t Scaling of the Navier-Stokes Equation -- \|g A.3. \|t Stokes Flow -- \|g A.4. \|t Sedimentation -- \|g B. \|t GARField Profiling Techniques and Experimental Parameters -- \|t References -- \|g C. \|t Terminology of Humidity and an Expression for Evaporation Rate -- \|g C.1. \|t Humidity -- \|g C.2. \|t Relative Humidity -- \|g C.3. \|t Dry Bulb Temperature -- \|g C.4. \|t Wet Bulb Temperature -- \|g C.5. \|t Specific Volume -- \|g C.6. \|t Enthalpy of Air -- \|g C.7. \|t Psychrometric Chart -- \|g C.8. \|t Dew Point -- \|g C.9. \|t Relating Humidity to Partial Pressure -- \|t Example 1 -- \|t Example 2 -- \|t Example 3 -- \|t Example 4 -- \|t Example 5 -- \|g C.10. \|t Evaporation Rate -- \|t References -- \|g D. \|t Fracture Mechanics: Terminology and Tests -- \|g D.1. \|t Fracture Toughness, KIC -- \|g D.2. \|t Plastic Zone Size at the Crack Tip, ry -- \|g D.3. \|t Critical Energy Release Rate, Gc -- \|g D.4. \|t Fracture Strength -- \|g D.5. \|t Fracture Energy -- \|t References.
650		0	\|a Latex \|x Surfaces.
650		0	\|a Latex \|x Properties.
650		0	\|a Thin films. \|0 http://id.loc.gov/authorities/subjects/sh85134864
650		0	\|a Polymer colloids. \|0 http://id.loc.gov/authorities/subjects/sh89006264
650		4	\|a Science.
650		4	\|a Science: Chemistry.
650		6	\|a Sciences.
650		7	\|a SCIENCE \|x Chemistry \|x Organic. \|2 bisacsh
655		4	\|a Electronic books.
650		7	\|a Polymer colloids. \|2 fast \|0 http://id.worldcat.org/fast/fst01070533
650		7	\|a Thin films. \|2 fast \|0 http://id.worldcat.org/fast/fst01150018
700	1		\|a Routh, Alexander Francis, \|d 1972- \|0 http://id.loc.gov/authorities/names/no00017167 \|1 http://viaf.org/viaf/66009592
776	0	8	\|i Print version: \|a Keddie, Joseph L. \|t Fundamentals of latex film formation. \|d Dordrecht : Springer, c2010 \|z 9789048128440 \|z 9048128447 \|w (OCoLC)619443813
830		0	\|a Springer laboratory. \|0 http://id.loc.gov/authorities/names/n92078049
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Fundamentals of latex film formation : processes and properties /

MARC

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