Verfügbarkeit: Formulation of disperse systems

Formulation of disperse systems: science and technology

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Bibliographische Detailangaben
1. Verfasser:	Tadros, Tharwat F. 1937-2018 (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2014
Schlagworte:	Disperse Phase Herstellung Dispersion
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIX, 483 S. Ill., graph. Darst.
ISBN:	3527336826 9783527336821 9783527678297

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MARC


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245	1	0	\|a Formulation of disperse systems \|b science and technology \|c Tharwat F. Tadros
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Datensatz im Suchindex

_version_	1806328684819251200
adam_text	CONTENTS PREFACE XVII 1 GENERAL INTRODUCTION 1 1.1 SUSPENSIONS 1 1.2 LATEXES 2 1.3 EMULSIONS 2 1.4 SUSPOEMULSIONS 3 1.5 MULTIPLE EMULSIONS 3 1.6 NANOSUSPENSIONS 4 1.7 NANOEMULSIONS 4 1.8 MICROEMULSIONS 5 1.9 PIGMENT AND INK DISPERSIONS 5 1.10 FOAMS 5 REFERENCES 9 2 SURFACTANTS USED IN FORMULATION OF DISPERSIONS 11 2.1 GENERAL CLASSIFICATION OF SURFACE-ACTIVE AGENTS 12 2.1.1 ANIONIC SURFACTANTS 13 2.1.1.1 CARBOXYLATES 13 2.1.1.2 SULPHATES 14 2.1.1.3 SULPHONATES 15 2.1.1.4 PHOSPHATE-CONTAINING ANIONIC SURFACTANTS 16 2.1.2 CATIONIC SURFACTANTS 16 2.1.3 AMPHOTERIC (ZWITTERIONIC) SURFACTANTS 17 2.1.4 NONIONIC SURFACTANTS 18 2.1.4.1 ALCOHOL ETHOXYLATES 19 2.1.4.2 ALKYL PHENOL ETHOXYLATES 19 2.1.4.3 FATTY ACID ETHOXYLATES 20 2.1.4.4 SORBITAN ESTERS AND THEIR ETHOXYLATED DERIVATIVES (SPANS AND TWEENS) 20 2.1.4.5 ETHOXYLATED FATS AND OILS 21 2.1.4.6 AMINE ETHOXYLATES 21 2.1.4.7 AMINE OXIDES 21 HTTP://D-NB.INFO/1047121298 VII CONTENTS 2.1.5 SPECIALTY SURFACTANTS 22 2.1.5.1 FLUOROCARBON AND SILICONE SURFACTANTS 22 2.1.5.2 GEMINI SURFACTANTS 23 2.1.5.3 SURFACTANTS DERIVED FROM MONOSACCHARIDES AND POLYSACCHARIDES 23 REFERENCES 24 3 PHYSICAL CHEMISTRY OF SURFACTANT SOLUTIONS AND THE PROCESS OF MICELLISATION 27 3.1 THERMODYNAMICS OF MICELLISATION 33 3.1.1 KINETIC ASPECTS 34 . 3.1.2 EQUILIBRIUM ASPECTS: THERMODYNAMICS OF MICELLISATION 35 3.2 ENTHALPY AND ENTROPY OF MICELLISATION 37 3.2.1 DRIVING FORCE FOR MICELLE FORMATION 38 3.2.2 MICELLISATION IN SURFACTANT MIXTURES (MIXED MICELLES) 40 REFERENCES 43 4 DISPERSANTS AND POLYMERIC SURFACTANTS 45 4.1 SOLUTION PROPERTIES OF POLYMERIC SURFACTANTS 46 4.2 GENERAL CLASSIFICATION OF POLYMERIC SURFACTANTS 50 4.3 POLYELECTROLYTES 53 REFERENCES 54 5 ADSORPTION OF SURFACTANTS AT THE AIR/LIQUID, LIQUID/LIQUID, AND SOLID/LIQUID INTERFACES 55 5.1 INTRODUCTION 55 5.2 ADSORPTION OF SURFACTANTS AT THE AIR/LIQUID (A/L) AND LIQUID/LIQUID (L/L) INTERFACES 56 5.3 THE GIBBS ADSORPTION ISOTHERM 57 5.4 EQUATION OF STATE APPROACH 60 5.5 THE LANGMUIR, SZYSZKOWSKI, AND FRUMKIN EQUATIONS 62 5.6 INTERFACIAL TENSION MEASUREMENTS 63 5.6.1 THE WILHELMY PLATE METHOD 63 5.6.2 THE PENDANT DROP METHOD 64 5.6.3 THE DU NOUY'S RING METHOD 64 5.6.4 THE DROP VOLUME (WEIGHT) METHOD 65 5.6.5 THE SPINNING DROP METHOD 65 5.7 ADSORPTION OF SURFACTANTS AT THE SOLID/LIQUID (S/L) INTERFACE 66 5.7.1 ADSORPTION OF IONIC SURFACTANTS ON HYDROPHOBIC SURFACES 68 5.7.2 ADSORPTION OF IONIC SURFACTANTS ON POLAR SURFACES 71 5.7.3 ADSORPTION OF NONIONIC SURFACTANTS 72 REFERENCES 74 6 6.1 ADSORPTION OF POLYMERIC SURFACTANTS AT THE SOLID/LIQUID INTERFACE 77 THEORIES OF POLYMER ADSORPTION 80 CONTENTS VII 6.2 EXPERIMENTAL TECHNIQUES FOR STUDYING POLYMERIC SURFACTANT ADSORPTION 88 6.2.1 MEASUREMENT OF THE ADSORPTION ISOTHERM 88 6.2.2 MEASUREMENT OF THE FRACTION OF SEGMENTS, P 89 6.3 DETERMINATION OF SEGMENT DENSITY DISTRIBUTION P(Z) AND ADSORBED LAYER THICKNESS 8 H 89 6.4 EXAMPLES OF THE ADSORPTION ISOTHERMS OF NONIONIC POLYMERIC SURFACTANTS 92 6.4.1 ADSORBED LAYER THICKNESS RESULTS 96 6.4.2 KINETICS OF POLYMER ADSORPTION 98 REFERENCES 98 7 COLLOID STABILITY OF DISPERSE SYSTEMS CONTAINING ELECTRICAL DOUBLE LAYERS 101 7.1 ORIGIN OF CHARGE ON SURFACES 101 7.1.1 SURFACE IONS 101 7.1.2 ISOMORPHIC SUBSTITUTION 102 12 STRUCTURE OF THE ELECTRICAL DOUBLE LAYER 103 7.2.1 DIFFUSE DOUBLE LAYER (GOUY AND CHAPMAN) 103 7.3 STERN-GRAHAME MODEL OF THE DOUBLE LAYER 104 7.4 DISTINCTION BETWEEN SPECIFIC AND NONSPECIFIC ADSORBED IONS 104 7.5 ELECTRICAL DOUBLE LAYER REPULSION 105 7.6 VAN DER WAALS ATTRACTION 106 7.7 TOTAL ENERGY OF INTERACTION 109 7.7.1 DERYAGUIN-LANDAU-VERWEY-OVERBEEK (DLVO) THEORY 109 7.8 FLOCCULATION OF SUSPENSIONS 111 7.9 CRITERIA FOR STABILISATION OF DISPERSIONS WITH DOUBLE LAYER INTERACTION 113 REFERENCES 114 8 STABILITY OF DISPERSE SYSTEMS CONTAINING ADSORBED NONIONIC SURFACTANTS OR POLYMERS: STERIC STABILISATION 115 8.1 INTRODUCTION 115 8.2 INTERACTION BETWEEN PARTICLES CONTAINING ADSORBED NONIONIC AND POLYMERIC SURFACTANT LAYERS (STERIC STABILISATION) 116 8.3 MIXING INTERACTION G^ 117 8.4 ELASTIC INTERACTION G E \| 118 8.5 TOTAL ENERGY OF INTERACTION 119 8.6 CRITERIA FOR EFFECTIVE STERIC STABILISATION 120 8.7 FLOCCULATION OF STERICALLY STABILISED DISPERSIONS 121 8.7.1 WEAK FLOCCULATION 121 8.7.2 INCIPIENT FLOCCULATION 121 8.7.3 DEPLETION FLOCCULATION 122 REFERENCES 123 VIIII CONTENTS 9 FORMULATION OF SOLID/LIQUID DISPERSIONS (SUSPENSIONS) 125 9.1 INTRODUCTION 125 9.2 PREPARATION OF SUSPENSIONS 126 9.3 CONDENSATION METHODS: NUCLEATION AND GROWTH 126 9.4 DISPERSION METHODS 128 9.4.1 WETTING OF POWDERS BY LIQUIDS 129 9.4.2 STRUCTURE OF THE SOLID/LIQUID INTERFACE AND THE ELECTRICAL DOUBLE LAYER 131 9.4.2.1 ELECTRICAL DOUBLE LAYER REPULSION 132 9.4.2.2 VAN DER WAALS ATTRACTION 132 9.4.2.3 TOTAL ENERGY OF INTERACTION 133 9.4.2.4 CRITERIA FOR STABILISATION OF SUSPENSIONS WITH DOUBLE LAYER INTERACTION 135 9.4.2.5 ELECTROKINETIC PHENOMENA AND THE ZETA-POTENTIAL 135 9.4.2.6 CALCULATION OF THE ZETA-POTENTIAL 136 9.4.2.7 MEASUREMENT OF THE ZETA-POTENTIAL 137 9.4.3 DISPERSING AGENTS FOR FORMULATION OF SUSPENSIONS 139 9.4.4 ADSORPTION OF SURFACTANTS AT THE SOLID/LIQUID INTERFACE 139 9.4.5 STERIC STABILISATION OF SUSPENSIONS 141 9.4.6 FLOCCULATION OF STERICALLY STABILISED SUSPENSIONS 143 9.4.7 PROPERTIES OF CONCENTRATED SUSPENSIONS 144 9.4.8 CHARACTERISATION OF SUSPENSIONS AND ASSESSMENT OF THEIR STABILITY 149 9.4.8.1 OPTICAL MICROSCOPY 150 9.4.8.2 ELECTRON MICROSCOPY 151 9.4.8.3 CONFOCAL LASER SCANNING MICROSCOPY 151 9.4.8.4 SCATTERING TECHNIQUES 151 9.5 BULK PROPERTIES OF SUSPENSIONS 152 9.5.1 RHEOLOGICAL MEASUREMENTS 152 9.5.2 SEDIMENTATION OF SUSPENSIONS AND PREVENTION OF FORMATION OF DILATANT SEDIMENTS (CLAYS) 153 9.5.3 PREVENTION OF SEDIMENTATION AND FORMATION OF DILATANT SEDIMENTS 156 REFERENCES 159 10 FORMULATION OF LIQUID/LIQUID DISPERSIONS (EMULSIONS) 161 10.1 INTRODUCTION 161 10.1.1 CREAMING AND SEDIMENTATION 161 10.1.2 FLOCCULATION 162 10.1.3 OSTWALD RIPENING (DISPROPORTIONATION) 162 10.1.4 COALESCENCE 163 10.1.5 PHASE INVERSION 163 10.2 INDUSTRIAL APPLICATIONS OF EMULSIONS 163 10.3 PHYSICAL CHEMISTRY OF EMULSION SYSTEMS 164 10.3.1 THE INTERFACE (CIBBS DIVIDING LINE) 164 CONTENTS IIX 10.3.2 THERMODYNAMICS OF EMULSION FORMATION AND BREAKDOWN 165 10.3.3 INTERACTION ENERGIES (FORCES) BETWEEN EMULSION DROPLETS AND THEIR COMBINATIONS 166 10.3.3.1 VAN DER WAALS ATTRACTIONS 166 10.3.3.2 ELECTROSTATIC REPULSION 167 10.3.3.3 STERIC REPULSION 170 10.4 ADSORPTION OF SURFACTANTS AT THE LIQUID/LIQUID INTERFACE 172 10.4.1 MECHANISM OF EMULSIFICATION 174 10.4.2 METHODS OF EMULSIFICATION 175 10.4.3 ROLE OF SURFACTANTS IN EMULSION FORMATION 177 10.4.4 ROLE OF SURFACTANTS IN DROPLET DEFORMATION 179 10.5 SELECTION OF EMULSIFIERS 183 10.5.1 THE HYDROPHILIC-LIPOPHILIC BALANCE (HLB) CONCEPT 183 10.5.2 THE PHASE INVERSION TEMPERATURE (PIT) CONCEPT 186 10.6 CREAMING OR SEDIMENTATION OF EMULSIONS 187 10.6.1 CREAMING OR SEDIMENTATION RATES 188 10.6.1.1 VERY DILUTE EMULSIONS ( / 0.01) 188 10.6.1.2 MODERATELY CONCENTRATED EMULSIONS (0.2 P 0.1) 189 10.6.1.3 CONCENTRATED EMULSIONS ( P 0.2) 189 10.6.2 PREVENTION OF CREAMING OR SEDIMENTATION 190 10.6.2.1 MATCHING THE DENSITY OF OIL AND AQUEOUS PHASES 190 10.6.2.2 REDUCTION OF DROPLET SIZE 190 10.6.2.3 USE OF'THICKENERS' 190 10.6.2.4 CONTROLLED FLOCCULATION 191 10.6.2.5 DEPLETION FLOCCULATION 191 10.7 FLOCCULATION OF EMULSIONS 192 10.7.1 MECHANISM OF EMULSION FLOCCULATION 193 10.7.1.1 FLOCCULATION OF ELECTROSTATICALLY STABILISED EMULSIONS 193 10.7.1.2 FLOCCULATION OF STERICALLY STABILISED EMULSIONS 195 10.8 GENERAL RULES FOR REDUCING (ELIMINATING) FLOCCULATION 196 10.8.1 CHARGE-STABILISED EMULSIONS (E.G., USING IONIC SURFACTANTS) 196 10.8.2 STERICALLY STABILISED EMULSIONS 196 10.9 OSTWALD RIPENING 196 10.10 EMULSION COALESCENCE 198 10.10.1 RATE OF COALESCENCE 200 10.11 PHASE INVERSION 200 REFERENCES 201 11 FORMULATION OFSUSPOEMULSIONS (MIXTURES OF SUSPENSIONS AND EMULSIONS) 203 11.1 INTRODUCTION 203 11.2 SUSPOEMULSIONS IN PAINTS 204 11.2.1 SUSPOEMULSIONS IN SUNSCREENS AND COLOUR COSMETICS 207 11.3 SUSPOEMULSIONS IN AGROCHEMICALS 219 X \| CONTENTS 11.3.1 MODEL SUSPOEMULSION OF POLYSTYRENE LATEX AND ISOPARAFFINIC OIL STABILISED WITH SYNPERONIC PE (PEO-PPO-PEO A-B-A BLOCK COPOLYMER) 225 11.3.2 MODEL SYSTEMS OF POLYSTYRENE LATEX WITH GRAFTED PEO CHAINS AND HEXADECANE EMULSIONS 227 REFERENCES 230 12 FORMULATION OF MULTIPLE EMULSIONS 231 12.1 INTRODUCTION 231 12.2 PREPARATION OF MULTIPLE EMULSIONS 232 12.3 TYPES OF MULTIPLE EMULSIONS 233 12.4 BREAKDOWN PROCESSES OF MULTIPLE EMULSIONS 233 12.5 FACTORS AFFECTING STABILITY OF MULTIPLE EMULSIONS, AND CRITERIA FOR THEIR STABILISATION 235 12.6 GENERAL DESCRIPTION OF POLYMERIC SURFACTANTS 237 12.7 INTERACTION BETWEEN OIL OR WATER DROPLETS CONTAINING AN ADSORBED POLYMERIC SURFACTANT: STERIC STABILISATION 238 12.8 EXAMPLES OF MULTIPLE EMULSIONS USING POLYMERIC SURFACTANTS 246 12.9 CHARACTERISATION OF MULTIPLE EMULSIONS 247 12.9.1 DROPLET SIZE MEASUREMENTS 247 12.10 RHEOLOGICAL MEASUREMENTS 248 REFERENCES 249 13 PREPARATION OF NANOSUSPENSIONS 251 13.1 INTRODUCTION 251 13.2 NUCLEATION AND GROWTH, AND CONTROL OF PARTICLE SIZE DISTRIBUTION 252 13.3 PREPARATION OF NANOSUSPENSIONS BY BOTTOM-UP PROCESSES 254 13.3.1 SOLVENT-ANTISOLVENT METHOD 255 13.3.2 USE OF A NANOEMULSION 255 13.3.3 MIXING TWO MICROEMULSIONS 256 13.3.4 PREPARATION OF POLYMER NANOPARTICLES BY MINIEMULSION OR MINISUSPENSION POLYMERISATION 256 13.4 PREPARATION OF NANOSUSPENSIONS USING THE BOTTOM-DOWN PROCESS 257 13.4.1 WETTING OF THE BULK POWDER 257 13.4.2 BREAKING OF AGGREGATES AND AGGLOMERATES INTO INDIVIDUAL UNITS 260 13.4.3 WET MILLING OR COMMINUTION 260 13.4.4 STABILISATION OF THE RESULTING DISPERSION 261 13.4.5 PREVENTION OF OSTWALD RIPENING (CRYSTAL GROWTH) 268 REFERENCES 268 14 14.1 14.2 FORMULATION OF NANOEMULSIONS 271 INTRODUCTION 271 MECHANISM OF EMUISIFICATION 273 CONTENTS I XI 14.3 METHODS OF EMULSIFICATION AND THE ROLE OF SURFACTANTS 275 14.4 PREPARATION OF NANOEMULSIONS 276 14.4.1 HIGH-PRESSURE HOMOGENISATION 276 14.4.2 PHASE INVERSION COMPOSITION (PIC) PRINCIPLE 277 14.4.3 PHASE INVERSION TEMPERATURE (PIT) PRINCIPLE 277 14.4.4 PREPARATION OF NANOEMULSIONS BY DILUTION OF MICROEMULSIONS 279 14.5 STERIC STABILISATION AND THE ROLE OF THE ADSORBED LAYER THICKNESS 281 14.5.1 OSTWALD RIPENING 283 14.5.2 PRACTICAL EXAMPLES OF NANOEMULSIONS 284 14.5.3 NANOEMULSIONS BASED ON POLYMERIC SURFACTANTS 293 REFERENCES 299 15 FORMULATION OF MICROEMULSIONS 301 15.1 INTRODUCTION 301 15.2 THERMODYNAMIC DEFINITION OF MICROEMULSIONS 302 15.3 MIXED-FILM AND SOLUBILISATION THEORIES OF MICROEMULSIONS 303 15.3.1 MIXED-FILM THEORIES 303 15.3.2 SOLUBILISATION THEORIES 305 15.4 THERMODYNAMIC THEORY OF MICROEMULSION FORMATION 307 15.4.1 REASON FOR COMBINING TWO SURFACTANTS 308 15.4.2 FACTORS DETERMINING W/O VERSUS O/W MICROEMULSIONS 309 15.5 CHARACTERISATION OF MICROEMULSIONS USING SCATTERING TECHNIQUES 311 15.5.1 TIME-AVERAGE (STATIC) LIGHT SCATTERING 311 15.5.2 CALCULATION OF DROPLET SIZE FROM INTERFACIAL AREA 313 15.5.3 DYNAMIC LIGHT SCATTERING (PHOTON CORRELATION SPECTROSCOPY; PCS) 314 15.6 CHARACTERISATION OF MICROEMULSIONS USING CONDUCTIVITY 315 15.7 NMR MEASUREMENTS 316 15.8 FORMULATION OF MICROEMULSIONS 317 15.8.1 THE HLB SYSTEM 318 15.8.2 PHASE INVERSION TEMPERATURE (PIT) METHOD 319 15.8.3 THE COHESIVE ENERGY RATIO (CER) CONCEPT 320 15.8.4 COSURFACTANT PARTITIONING 322 REFERENCES 322 FURTHER READING 323 16 FORMULATION OF FOAMS 325 16.1 INTRODUCTION 325 16.2 FOAM PREPARATION 326 16.3 FOAM STRUCTURE 327 16.4 CLASSIFICATION OF FOAM STABILITY 328 16.5 DRAINAGE AND THINNING OF FOAM FILMS 329 16.6 THEORIES OF FOAM STABILITY 330 XII \| CONTENTS 16.6.1 SURFACE VISCOSITY AND ELASTICITY THEORY 330 16.6.2 THE GIBBS-MARANGONI EFFECT THEORY 330 16.6.3 SURFACE FORCES THEORY (DISJOINING PRESSURE JC ) 331 16.6.4 STABILISATION BY MICELLES (HIGH SURFACTANT CONCENTRATIONS CMC) 334 16.6.5 STABILISATION BY LAMELLAR LIQUID CRYSTALLINE PHASES 334 16.6.6 STABILISATION OF FOAM FILMS BY MIXED SURFACTANTS 334 16.7 FOAM INHIBITORS 335 16.7.1 CHEMICAL INHIBITORS THAT LOWER VISCOSITY AND INCREASE DRAINAGE 335 16.7.2 SOLUBILISED CHEMICALS WHICH CAUSE ANTIFOAMING 335 16.7.3 DROPLETS AND OIL LENSES WHICH CAUSE ANTIFOAMING AND DEFOAMING 336 16.7.4 SURFACE TENSION GRADIENTS (INDUCED BY ANTIFOAMERS) 336 16.7.5 HYDROPHOBIC PARTICLES AS ANTIFOAMERS 337 16.7.6 MIXTURES OF HYDROPHOBIC PARTICLES AND OILS AS ANTIFOAMERS 338 16.8 PHYSICAL PROPERTIES OF FOAMS 338 16.8.1 MECHANICAL PROPERTIES 338 16.8.2 RHEOLOGICAL PROPERTIES 339 16.8.3 ELECTRICAL PROPERTIES 340 16.8.4 ELECTROKINETIC PROPERTIES 340 16.8.5 OPTICAL PROPERTIES 341 16.9 EXPERIMENTAL TECHNIQUES FOR STUDYING FOAMS 341 16.9.1 STUDIES ON FOAM FILMS 341 16.9.2 STRUCTURAL PARAMETERS OF FOAMS 342 16.9.3 FOAM DRAINAGE 342 16.9.4 FOAM COLLAPSE 343 REFERENCES 343 17 FORMULATION OF LATEXES 345 17.1 INTRODUCTION 345 17.2 EMULSION POLYMERISATION 346 17.2.1 MECHANISM OF EMULSION POLYMERISATION 348 17.2.2 BLOCK COPOLYMERS AS STABILISERS IN EMULSION POLYMERISATION 349 17.2.3 GRAFT COPOLYMERS AS STABILISERS IN EMULSION POLYMERISATION 352 17.3 POLYMERIC SURFACTANTS FOR STABILISATION OF PREFORMED LATEX DISPERSIONS 356 17.4 DISPERSION POLYMERISATION 360 17.4.1 MECHANISM OF DISPERSION POLYMERISATION 362 17.4.2 INFLUENCE OF POLYMERIC SURFACTANT CONCENTRATION AND MOLECULAR WEIGHT ON PARTICLE FORMATION 363 17.4.3 EFFECT OF MONOMER SOLUBILITY AND CONCENTRATION IN THE CONTINUOUS PHASE 363 17.4.4 STABILITY/INSTABILITY OF THE RESULTING LATEX 364 17.4.5 PARTICLE FORMATION IN POLAR MEDIA 364 REFERENCES 365 CONTENTS I XIII 18 FORMULATION OF PIGMENT AND INK DISPERSIONS 367 18.1 INTRODUCTION 367 18.2 POWDER WETTING 370 18.2.1 EFFECT OF SURFACTANT ADSORPTION 374 18.2.2 WETTING OF POWDERS BY LIQUIDS 375 18.2.3 MEASUREMENT OF WETTABILITY OF POWDERS 377 18.2.3.1 SUBMERSION TEST: SINKING TIME OR IMMERSION TIME 377 18.2.4 MEASUREMENT OF CONTACT ANGLES OF LIQUIDS AND SURFACTANT SOLUTIONS ON POWDERS 378 18.2.5 WETTING AGENTS FOR HYDROPHOBIC PIGMENTS 379 18.2.6 DYNAMICS OF PROCESSING OF ADSORPTION AND WETTING 380 18.2.7 EXPERIMENTAL TECHNIQUES FOR STUDYING ADSORPTION KINETICS 384 18.3 BREAKING OF AGGREGATES AND AGGLOMERATES (DEAGGLOMERATION) 387 18.4 CLASSIFICATION OF DISPERSANTS 388 18.4.1 SURFACTANTS 388 18.4.2 POLYMERIC SURFACTANTS 389 18.4.3 POLYELECTROLYTES 390 18.4.4 ASSESSMENT AND SELECTION OF DISPERSANTS 391 18.4.4.1 ADSORPTION ISOTHERMS 391 18.4.4.2 MEASUREMENT OF DISPERSION AND PARTICLE SIZE DISTRIBUTION 392 18.4.4.3 WET MILLING (COMMINUTION) 392 18.4.4.4 BEAD MILLS 394 REFERENCES 395 19 METHODS OF EVALUATING FORMULATIONS AFTER DILUTION 397 19.1 INTRODUCTION 397 19.2 ASSESSMENT OF THE STRUCTURE OF THE SOLID/LIQUID INTERFACE 398 19.2.1 DOUBLE LAYER INVESTIGATION .398 19.2.1.1 ANALYTICAL DETERMINATION OF SURFACE CHARGE 398 19.2.1.2 ELECTROKINETIC AND ZETA-POTENTIAL MEASUREMENTS 399 19.2.2 MEASUREMENT OF SURFACTANT AND POLYMER ADSORPTION 400 19.3 ASSESSMENT OF SEDIMENTATION OF SUSPENSIONS 403 19.4 ASSESSMENT OF FLOCCULATION AND OSTWALD RIPENING (CRYSTAL GROWTH) 405 19.4.1 OPTICAL MICROSCOPY 406 19.4.1.1 PHASE-CONTRAST MICROSCOPY 406 19.4.1.2 DIFFERENTIAL INTERFERENCE CONTRAST (DIC) MICROSCOPY 407 19.4.1.3 POLARISED LIGHT MICROSCOPY 407 19.4.1.4 SAMPLE PREPARATION FOR OPTICAL MICROSCOPY 407 19.4.1.5 PARTICLE SIZE MEASUREMENTS USING OPTICAL MICROSCOPY 407 19.4.2 ELECTRON MICROSCOPY 408 19.4.2.1 TRANSMISSION ELECTRON MICROSCOPY 408 19.4.2.2 SCANNING ELECTRON MICROSCOPY 409 19.4.3 CONFOCAL LASER SCANNING MICROSCOPY 409 19.4.4 SCANNING PROBE MICROSCOPY 409 XIV I CONTENTS 19.4.5 SCANNING TUNNELING MICROSCOPY 410 19.4.6 ATOMIC FORCE MICROSCOPY 410 19.5 SCATTERING TECHNIQUES 411 19.5.1 LIGHT-SCATTERING 411 19.5.1.1 TIME-AVERAGE LIGHT SCATTERING 411 19.5.1.2 RAYLEIGH-GANS-DEBYE REGIME (RGD) X./20 R X 412 19.5.2 TURBIDITY MEASUREMENTS 412 19.5.3 LIGHT-DIFFRACTION TECHNIQUES 413 19.5.4 DYNAMIC LIGHT SCATTERING (DLS): PHOTON CORRELATION SPECTROSCOPY (PCS) 415 19.5.5 BACK-SCATTERING TECHNIQUES 418 19.6 MEASUREMENT OF RATE OF FLOCCULATION 418 19.7 MEASUREMENT OF INCIPIENT FLOCCULATION 419 19.8 MEASUREMENT OF CRYSTAL GROWTH (OSTWALD RIPENING) 420 19.9 BULK PROPERTIES OF SUSPENSIONS: EQUILIBRIUM SEDIMENT VOLUME (OR HEIGHT) AND REDISPERSION 420 REFERENCES 421 20 EVALUATING FORMULATIONS WITHOUT DILUTION: RHEOLOGICAL TECHNIQUES 423 20.1 INTRODUCTION 423 20.2 STEADY-STATE MEASUREMENTS 424 20.2.1 RHEOLOGICAL MODELS FOR ANALYSIS OF FLOW CURVES 424 20.2.1.1 NEWTONIAN SYSTEMS 424 20.2.1.2. BINGHAM PLASTIC SYSTEMS 425 20.2.1.3 PSEUDOPLASTIC (SHEAR THINNING) SYSTEM 425 20.2.1.4 DILATANT (SHEAR THICKENING) SYSTEM 425 20.2.1.5 HERSCHEL-BULKLEY GENERAL MODEL 426 20.2.1.6 THE CASSON MODEL 426 20.2.1.7 THE CROSS EQUATION 426 20.2.2 TIME EFFECTS DURING FLOW: THIXOTROPY AND NEGATIVE (OR ANTI-) THIXOTROPY 426 20.3 CONSTANT STRESS (CREEP) MEASUREMENTS 429 20.3.1 ANALYSIS OF CREEP CURVES 430 20.3.1.1 VISCOUS FLUID 430 20.3.1.2 ELASTIC SOLID 430 20.3.2 VISCOELASTIC RESPONSE 430 20.3.2.1 VISCOELASTIC LIQUID 430 20.3.2.2 VISCOELASTIC SOLID 431 20.3.3 CREEP PROCEDURE 431 20.4 DYNAMIC (OSCILLATORY) MEASUREMENTS 432 20.4.1 ANALYSIS OF OSCILLATORY RESPONSE FOR A VISCOELASTIC SYSTEM 433 20.4.2 VECTOR ANALYSIS OF THE COMPLEX MODULUS 434 20.4.2.1 DYNAMIC VISCOSITY R\|' 434 20.4.2.2 STRAIN SWEEP 434 CONTENTS I XV 20.4.2.3 FREQUENCY SWEEP 434 20.4.3 THE COHESIVE ENERGY DENSITY E C 436 20.4.4 APPLICATION OF RHEOLOGICAL TECHNIQUES TO ASSESS AND PREDICT THE PHYSICAL STABILITY OF SUSPENSIONS 436 20.4.4.1 RHEOLOGICAL TECHNIQUES TO ASSESS SEDIMENTATION AND SYNERESIS 436 20.4.4.2 ROLE OFTHICKENERS 437 20.4.5 ASSESSMENT OF FLOCCULATION USING RHEOLOGICAL TECHNIQUES 438 20.4.5.1 STRAIN SWEEP MEASUREMENTS 440 20.4.5.2 OSCILLATORY SWEEP MEASUREMENTS 441 REFERENCES 442 FURTHER READING 442 21 ASSESSMENT AND PREDICTION OF CREAMING, SEDIMENTATION, FLOCCULATION, AND COALESCENCE OF FORMULATIONS 443 21.1 ASSESSMENT AND PREDICTION OF CREAMING AND SEDIMENTATION 443 21.1.1 INTRODUCTION 443 21.1.2 ACCELERATED TESTS AND THEIR LIMITATIONS 443 21.1.3 APPLICATION OF HIGH-GRAVITY (G) FORCES 444 21.1.4 RHEOLOGICAL TECHNIQUES FOR PREDICTION OF SEDIMENTATION OR CREAMING 445 21.1.5 SEPARATION OF FORMULATION ("SYNERESIS") 445 21.1.6 EXAMPLES OF CORRELATION OF SEDIMENTATION OR CREAMING WITH RESIDUAL (ZERO SHEAR) VISCOSITY 446 21.1.6.1 MODEL SUSPENSIONS OF AQUEOUS POLYSTYRENE LATEX 446 21.1.6.2 SEDIMENTATION IN NON-NEWTONIAN LIQUIDS 448 21.1.6.3 ROLE OFTHICKENERS 448 21.1.6.4 PREDICTION OF EMULSION CREAMING 449 21.1.6.5 CREEP MEASUREMENTS FOR PREDICTION OF CREAMING 450 21.1.6.6 OSCILLATORY MEASUREMENTS FOR PREDICTION OF CREAMING 451 21.2 ASSESSMENT AND PREDICTION OF FLOCCULATION USING RHEOLOGICAL TECHNIQUES 452 21.2.1 INTRODUCTION 452 21.2.2 WALL SLIP 452 21.2.3 STEADY-STATE SHEAR STRESS-SHEAR RATE MEASUREMENTS 452 21.2.4 INFLUENCE OF OSTWALD RIPENING AND COALESCENCE 453 21.2.5 CONSTANT STRESS (CREEP) EXPERIMENTS 453 21.2.6 DYNAMIC (OSCILLATORY) MEASUREMENTS 454 21.2.6.1 STRAIN SWEEP MEASUREMENTS 454 21.2.6.2 OSCILLATORY SWEEP MEASUREMENTS 455 21.2.7 EXAMPLES OF THE APPLICATION OF RHEOLOGY FOR ASSESSMENT AND PREDICTION OF FLOCCULATION 456 21.2.7.1 FLOCCULATION AND RESTABILISATION OF CLAYS USING CATIONIC SURFACTANTS 456 21.2.7.2 FLOCCULATION OF STERICALLY STABILISED DISPERSIONS 457 21.2.7.3 FLOCCULATION OF STERICALLY STABILISED EMULSIONS 458 XVI \| CONTENTS 21.3 ASSESSMENT AND PREDICTION OF EMULSION COALESCENCE USING RHEOLOGICAL TECHNIQUES 459 21.3.1 INTRODUCTION 459 21.3.2 RATE OF COALESCENCE 459 21.3.3 RHEOLOGICAL TECHNIQUES 460 21.3.3.1 VISCOSITY MEASUREMENTS 460 21.3.3.2 MEASUREMENT OF YIELD VALUE AS A FUNCTION OF TIME 461 21.3.3.3 MEASUREMENT OF STORAGE MODULUS G' AS A FUNCTION OF TIME 461 21.3.4 CORRELATION BETWEEN ELASTIC MODULUS AND COALESCENCE 462 21.3.5 COHESIVE ENERGY E C 463 REFERENCES 463 INDEX 465
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author	Tadros, Tharwat F. 1937-2018
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spelling	Tadros, Tharwat F. 1937-2018 Verfasser (DE-588)129740837 aut Formulation of disperse systems science and technology Tharwat F. Tadros Weinheim Wiley-VCH 2014 XIX, 483 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Disperse Phase (DE-588)4365824-6 gnd rswk-swf Herstellung (DE-588)4159653-5 gnd rswk-swf Dispersion (DE-588)4012484-8 gnd rswk-swf Dispersion (DE-588)4012484-8 s DE-604 Disperse Phase (DE-588)4365824-6 s Herstellung (DE-588)4159653-5 s 1\p DE-604 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-67830-3 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-67831-0 Erscheint auch als Online-Ausgabe, PDF 978-3-527-67832-7 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4583964&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027446189&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Tadros, Tharwat F. 1937-2018 Formulation of disperse systems science and technology Disperse Phase (DE-588)4365824-6 gnd Herstellung (DE-588)4159653-5 gnd Dispersion (DE-588)4012484-8 gnd
subject_GND	(DE-588)4365824-6 (DE-588)4159653-5 (DE-588)4012484-8
title	Formulation of disperse systems science and technology
title_auth	Formulation of disperse systems science and technology
title_exact_search	Formulation of disperse systems science and technology
title_full	Formulation of disperse systems science and technology Tharwat F. Tadros
title_fullStr	Formulation of disperse systems science and technology Tharwat F. Tadros
title_full_unstemmed	Formulation of disperse systems science and technology Tharwat F. Tadros
title_short	Formulation of disperse systems
title_sort	formulation of disperse systems science and technology
title_sub	science and technology
topic	Disperse Phase (DE-588)4365824-6 gnd Herstellung (DE-588)4159653-5 gnd Dispersion (DE-588)4012484-8 gnd
topic_facet	Disperse Phase Herstellung Dispersion
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4583964&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027446189&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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