Hansen Solubility Parameters

Name: Hansen Solubility Parameters
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A User's Handbook, Second Edition

By: Charles M. Hansen

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Hardcover | 15 June 2007 | Edition Number 2

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Hardcover
544 Pages

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New edition

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25.9 x 18.4 x 4.1

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Hansen solubility parameters (HSPs) are used to predict molecular affinities, solubility, and solubility-related phenomena. Revised and updated throughout, Hansen Solubility Parameters: A User's Handbook, Second Edition features the three Hansen solubility parameters for over 1200 chemicals and correlations for over 400 materials including polymers, inorganic salts, and biological materials.

To update his groundbreaking handbook with the latest advances and perspectives, Charles M. Hansen has invited five renowned experts to share their work, theories, and practical applications involving HSPs. New discussions include a new statistical thermodynamics approach for confirming existing HSPs and how they fit into other thermodynamic theories for polymer solutions. Entirely new chapters examine the prediction of environmental stress cracking as well as absorption and diffusion in polymers. Highlighting recent findings on interactions with DNA, the treatment of biological materials also includes skin tissue, proteins, natural fibers, and cholesterol. The book also covers the latest applications of HSPs, such as ozone-safe "designer" solvents, protective clothing, drug delivery systems, and petroleum applications.

Presenting a comprehensive survey of the theoretical and practical aspects of HSPs, Hansen Solubility Parameters, Second Edition concludes with a detailed discussion on the necessary research, future directions, and potential applications for which HSPs can provide a useful means of prediction in areas such as biological materials, controlled release applications, nanotechnology, and self-assembly.

Industry Reviews

"Hansen (retired from the FORCE Institute in Broenby Denmark) describes the techniques he developed that allow correlations and systemic comparisons in the science of polymer solvents. Most commonly used in the coatings industry for the selection of solvents, the techniques assess polymer solubility, swelling, permeation, surface wetting, and the solubility of organic salts. The approach not only quantitatively describes hydrogen bonding and polar bonding in many types of systems, but in fact agrees with and extends the very general Prigogine theory. The second edition adds two chapters on environmental stress cracking and absorption/diffusion in polymers."
- SciTech Book News, December 2007

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Non-Fiction Engineering & Technology Industrial Chemistry & Manufacturing Technologies Industrial Chemistry Science Chemistry Organic Chemistry Polymer Chemistry

Solubility Parameters - An Introduction	p. 1
Abstract	p. 1
Introduction	p. 1
Hildebrand Parameters and Basic Polymer Solution Thermodynamics	p. 2
Hansen Solubility Parameters	p. 4
Methods and Problems in the Determination of Partial Solubility Parameters	p. 6
Calculation of the Dispersion Solubility Parameter [delta subscript D]	p. 13
Calculation of the Polar Solubility Parameter [delta subscript P]	p. 16
Calculation of the Hydrogen Bonding Solubility Parameter [delta subscript H]	p. 17
Supplementary Calculations and Procedures	p. 17
Temperature Dependence	p. 18
Some Special Effects Temperature Changes	p. 19
Effects of Solvent Molecular Size	p. 19
Computer Programs	p. 20
Hansen Solubility Parameters for Water	p. 21
Conclusion	p. 22
References	p. 24
Theory - The Prigogine Corresponding States Theory, [chi subscript 12] Interaction Parameter, and Hansen Solubility Parameters	p. 27
Abstract	p. 27
Introduction	p. 27
Hansen Solubility Parameters (HSP)	p. 28
Resemblance between Predictions of Hansen Solubility Parameters and Corresponding States Theories	p. 30
The [chi subscript 12] Parameter and Hansen Solubility Parameters	p. 32
Comparison of Calculated and Experimental [chi subscript 12] Parameters	p. 34
Polybutadiene	p. 35
Polyisobutylene	p. 36
Polystyrene	p. 38
Polyvinylacetate	p. 39
Polyaciylonitrile	p. 39
General Discussion	p. 39
Postscript	p. 40
Conclusion	p. 41
References	p. 42
Statistical Thermodynamic Calculations of the Hydrogen Bonding, Dipolar, and Dispersion Solubility Parameters	p. 45
Key words	p. 45
Abstract	p. 45
Introduction	p. 45
Theory	p. 46
The Equation-of-State Framework	p. 46
The Contribution from Dipolar Forces	p. 50
Applications	p. 52
Discussion and Conclusions	p. 59
Acknowledgments	p. 62
List of Symbols Special to this Chapter	p. 63
References	p. 64
The Acid Dimerization	p. 65
An Alternative Form of the Polar Term	p. 66
A Group-Contribution Method for the Prediction of [delta] and [delta subscript D]	p. 66
The Hansen Solubility Parameters (HSP) in Thermodynamic Models for Polymer Solutions	p. 75
Abstract	p. 75
Group Contribution Methods for Estimating Properties of Polymers	p. 76
The Group-Contribution Principle and Some Applications (Density, Solubility Parameters)	p. 76
GC Free-Volume-Based Models for Polymers (Entropic-FV, Unifac-FV)	p. 77
The Free-Volume Concept	p. 77
The UNIFAC-FV Model	p. 77
The Entropic Model	p. 78
The Flory-Huggins Model and the Regular Solution Theory	p. 80
Rules of Thumb and Solvent Selection Using the Flory-Huggins Model and Solubility Parameters	p. 81
Activity Coefficients Models Using the HSP	p. 82
Flory-Huggins Models Using Hildebrand and Hansen Solubility Parameters (HSP)	p. 82
The FH/Hansen Model vs. the GC Methods	p. 84
Applications	p. 85
Solvent Selection for Paints (Activity Coefficients at Infinite Dilution)	p. 85
Mixed Solvent-Polymer Phase Equilibria	p. 88
Conclusions and Future Challenges	p. 90
List of Abbreviations	p. 91
Symbols in this Chapter	p. 92
An Expression of the Flory-Huggins Model for Multicomponent Mixtures	p. 92
References	p. 93
Methods of Characterization - Polymers	p. 95
Abstract	p. 95
Introduction	p. 95
Calculation of Polymer HSP	p. 97
Solubility - Examples	p. 98
Swelling - Examples	p. 106
Melting Point Determinations - Effect of Temperature	p. 106
Environmental Stress Cracking	p. 107
Intrinsic Viscosity Measurements	p. 107
Other Measurement Techniques	p. 109
Conclusion	p. 109
References	p. 110
Methods of Characterization - Surfaces	p. 113
Abstract	p. 113
Introduction	p. 113
Hansen Solubility Parameter Correlations with Surface Tension (Surface Free Energy)	p. 113
Method to Evaluate the Cohesion Energy Parameters for Surfaces	p. 114
A Critical View of the Critical Surface Tensions	p. 116
A Critical View of the Wetting Tension	p. 117
Additional Hansen Solubility Parameter Surface Characterizations and Comparisons	p. 118
Self-Stratifying Coatings	p. 120
Maximizing Physical Adhesion	p. 122
Conclusion	p. 122
References	p. 122
Methods of Characterization for Pigments, Fillers, and Fibers	p. 125
Abstract	p. 125
Introduction	p. 125
Methods to Characterize Pigment, Filler, and Fiber Surfaces	p. 126
Discussion - Pigments, Fillers, and Fibers	p. 127
Hansen Solubility Parameter Correlation of Zeta Potential for Blanc Fixe	p. 131
Carbon Fiber Surface Characterization	p. 131
Controlled Adsorption (Self-Assembly)	p. 132
Conclusion	p. 134
References	p. 134
Applications - Coatings and Other Filled Polymer Systems	p. 137
Abstract	p. 137
Introduction	p. 137
Solvents	p. 137
Techniques for Data Treatment	p. 142
Solvents and Surface Phenomena in Coatings (Self-Assembly)	p. 144
Polymer Compatibility	p. 145
Hansen Solubility Parameter Principles Applied to Understanding Other Filled Polymer Systems	p. 147
Conclusion	p. 147
References	p. 148
Hansen Solubility Parameters of Asphalt, Bitumen, and Crude Oils	p. 151
Abstract	p. 151
Symbols Special to Chapter 9	p. 151
Introduction	p. 151
Models of Bitumen	p. 152
Asphaltenes	p. 154
Molecular Weight	p. 154
Polarity	p. 155
Solubility Parameters of Bitumen	p. 155
Testing of Bitumen Solubility	p. 156
Hildebrand Solubility Parameters	p. 156
Hansen Solubility Parameters (HSP)	p. 158
The Solubility Sphere	p. 159
Computer Program for Calculation and Plotting of the Hansen 3D Pseudosphere	p. 161
Components of Bitumen	p. 164
Bitumen and Polymers	p. 166
Crude Oil	p. 169
Turbidimetric Titrations	p. 170
BISOM Test	p. 170
Conclusion	p. 173
References	p. 174
Determination of Hansen Solubility Parameter Values for Carbon Dioxide	p. 177
Abstract	p. 177
Introduction	p. 177
Methodology	p. 178
One-Component Hildebrand Parameter as a Function of Temperature and Pressure	p. 187
Three-Component (Hansen) Solubility Parameters - Pure CO[subscript 2]	p. 189
Temperature and Pressure Effects on HSPs: [delta subscript d]	p. 190
Temperature and Pressure Effects on HSPs: [delta subscript p]	p. 191
Temperature and Pressure Effects on HSPs: [delta subscript h]	p. 191
Conclusion	p. 196
Acknowledgments	p. 196
Addendum	p. 196
Symbols Special to this Chapter	p. 197
References	p. 197
Ideal Solubility of Gases in Liquids and Published CO[subscript 2] Solubility Data	p. 199
Ideal Solubility of Gases in Liquids	p. 199
References	p. 201
Use of Hansen Solubility Parameters to Identify Cleaning Applications for "Designer" Solvents	p. 203
Abstract	p. 203
Introduction	p. 203
A Variety of Solvents	p. 204
Pathology of Soils	p. 204
HSP of Multiple-Component Soils	p. 204
Method for Calculating HSP of Composites (Soils or Solvents)	p. 205
More Realistic View about Evaluating HSP of Composite Soils	p. 206
Method for Choice of Suitable Solvents	p. 206
Reference Soils for Comparison	p. 208
Identification of Designer Solvents	p. 208
An Open Question - Answered	p. 208
Limiting R[subscript A] Value for Expected Good Cleaning Performance	p. 210
Application of HSP Methodology to Cleaning Operations	p. 212
Analysis of Capability of Designer Solvents	p. 213
Conclusions	p. 215
Notes	p. 227
Applications - Chemical Resistance	p. 231
Abstract	p. 231
Introduction	p. 231
Chemical Resistance - Acceptable-or-Not Data	p. 232
Effects of Solvent Molecular Size	p. 232
Chemical Resistance - Examples	p. 233
Tank Coatings	p. 233
PET Film Coating	p. 234
Acceptable or Not - Plastics	p. 234
Tensile Strength	p. 237
Special Effects with Water	p. 238
Conclusion	p. 239
References	p. 240
Applications - Barrier Polymers	p. 243
Abstract	p. 243
Introduction	p. 243
Concentration-Dependent Diffusion	p. 244
Solubility Parameter Correlations Based on Permeation Phenomena	p. 245
Solubility Parameter Correlations of Breakthrough Times	p. 245
Solubility Parameter Correlation of Permeation Rates	p. 248
Solubility Parameter Correlation of Polymer Swelling	p. 250
Solubility Parameter Correlation of Permeation Coefficients for Gases	p. 251
Laminates	p. 253
General Considerations	p. 255
Conclusion	p. 256
References	p. 257
Applications - Environmental Stress Cracking in Polymers	p. 259
Abstract	p. 259
Introduction	p. 259
ESC Interpreted Using HSP	p. 260
ESC with Nonabsorbing Stress Cracking Initiators	p. 263
Discussion	p. 264
Conclusion	p. 267
References	p. 267
Hansen Solubility Parameters - Biological Materials	p. 269
Abstract	p. 269
Introduction	p. 270
Hydrophobic Bonding and Hydrophilic Bonding (Self-Association)	p. 271
DNA	p. 273
Cholesterol	p. 275
Lard	p. 277
Human Skin	p. 277
Proteins - Blood Serum and Zein	p. 279
Chlorophyll and Lignin	p. 279
Wood Chemicals and Polymers	p. 279
Urea	p. 283
Water	p. 289
Surface Mobility	p. 290
Chiral Rotation, Hydrogen Bonding, and Nanoengineering	p. 290
Conclusion	p. 291
References	p. 291
Absorption and Diffusion in Polymers	p. 293
Abstract	p. 293
List of Symbols Used in This Chapter	p. 293
Introduction	p. 294
Steady State Permeation	p. 296
The Diffusion Equation	p. 296
Constant Diffusion Coefficients	p. 296
Concentration Dependent Diffusion Coefficients	p. 297
Surface Resistance	p. 298
Mathematical Background	p. 298
Surface Resistance in Absorption Experiments	p. 300
Surface Resistance in Permeation Experiments	p. 301
Surface Resistance - A Discussion	p. 302
Side Effects	p. 304
Measuring Diffusion Coefficients with Surface Resistance and Concentration Dependence	p. 304
Film Formation by Solvent Evaporation	p. 305
Anomalous Diffusion (Case II, Super Case II)	p. 306
General Comments	p. 308
Conclusion	p. 308
References	p. 309
Applications - Safety and Environment	p. 311
Abstract	p. 311
Introduction	p. 311
Substitution	p. 311
Alternative Systems	p. 312
Solvent Formulation and Personal Protection for Least Risk	p. 313
The Danish Mal System - The Fan	p. 313
Selection of Chemical Protective Clothing	p. 315
Uptake of Contents by a Plastic Container	p. 315
Skin Penetration	p. 316
Transport Phenomena	p. 316
Conclusion	p. 317
References	p. 318
The Future	p. 321
Abstract	p. 321
Introduction	p. 321
Hansen Solubility Parameter Data and Data Quality	p. 324
Group Contribution Methods	p. 328
Polymers as Points - Solvents as Spheres	p. 328
Characterizing Surfaces	p. 330
Materials and Processes Suggested for Further Attention	p. 332
Surface Active Agents	p. 332
Surface Mobility (Self-Assembly)	p. 333
Water	p. 334
Gases	p. 336
Organic Salts	p. 337
Inorganic Saks	p. 337
Organometallic Compounds	p. 338
Aromas and Fragrances	p. 338
Absorption of Chemicals in Plastics	p. 339
Chemical Resistance	p. 339
Controlled Release	p. 339
Nanotechnology	p. 340
Theoretical Problems Awaiting Future Resolution	p. 341
Polymer Solubility	p. 341
Surface Phenomena	p. 342
Conclusion	p. 342
References	p. 342
Comments to Table A.1	p. 345
References	p. 346
	p. 347
Comments to Table A.2	p. 485
References	p. 490
List of Trade Names and Suppliers	p. 491
493
Comments to Table A.3	p. 507
508
Index	p. 511
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Hansen Solubility Parameters

A User's Handbook, Second Edition

At a Glance

Hardcover

Industry Reviews

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How to return your order

Defective items

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