Verfügbarkeit: Foam and foam films

Foam and foam films: theory, experiment, application

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Bibliographische Detailangaben
Hauptverfasser:	Exerowa, Dotchi (VerfasserIn), Krugljakov, Pjotr M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 1998
Schriftenreihe:	Studies in interface science 5
Schlagworte:	Foam Membranes (Technology) Schaum
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 773 S. Ill., graph. Darst.
ISBN:	0444819223

Internformat

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Datensatz im Suchindex

_version_	1804126933999419392
adam_text	FOAM AND FOAM FILMS THEORY, EXPERIMENT, APPLICATION DOTCHIEXEROWA INSTITUTE OF PHYSICAL CHEMISTRY BULGARIAN ACADEMY OF SCIENCES SOFIA BULGARIA PYOTR M. KRUGLYAKOV STATE ACADEMY OF ARCHITECTURE AND BUILDING PENZA RUSSIA 1998 ELSEVIER AMSTERDAM - LAUSANNE - NEW YORK - OXFORD - SHANNON - SINGAPORE - TOKYO CONTENTS VU PREFACE ACKNOWLEDGEMENTS INTRODUCTION CHAPTER 1 FORMATION AND STRUCTURE OF FOAMS. PRESSURE IN THE LIQUID 1 AND GAS PHASES OF FOAMS 1.1. METHODS FOR FOAM GENERATION 4 1.2. SHAPE OF FILMS AND BUBBLES IN FOAM 14 1.3. FOAM DISPERSITY 25 1.4. PRESSURE IN LIQUID PHASE OF FOAM AND BUBBLES 31 REFERENCES 37 CHAPTER 2 EXPERMINETAL METHODS INVOLVED IN THE STUDY OF FOAM FILMS 42 2.1. MICROSCOPIC THIN LIQUID FILMS 42 2.1.1. THIN LIQUID FILMS: MICROINTERFEROMETRIC TECHNIQUE 43 2.1.2. MEASURING CELLS FOR FORMATION AND STUDY OF MICROSCOPIC 43 FOAM FILMS 2.1.3. DETERMINATION OF FOAM FILM THICKNESS 47 2.1.4. DETERMINATION OF THE CAPILLARY PRESSURE 50 2.1.5. DETERMINATION OF THE CONTACT ANGLE BETWEEN THE FOAM FILM 52 AND THE BULK PHASE 2.1.6. FOAM FILM STUDY WITH A-PARTICLE IRRADIATION 55 2.1.7. FLUORESCENCE RECOVERY AFTER PHOTOBLEACHING (FRAP) 56 OF FOAM FILMS 2.1.8. THIN LIQUID FILMS - PRESSURE BALANCE TECHNIQUE 58 2.2. MACROSCOPIC FOAM FILMS 60 2.2.1. LARGE FLAT FOAM FILMS ON A FRAME 61 2.2.2. METHODS FOR MEASUREMENT OF FOAM FILM ELASTICITY 64 2.2.3. TECHNIQUES FOR MEASUREMENT OF THE LATERAL ELECTRICAL 67 CONDUCTIVITY OF FOAM FILMS 2.2.4. ELLIPSOMETRY OF BLACK FOAM FILMS 70 2.2.5. FT-IR SPECTROSCOPY STUDIES OF FOAM FILMS 71 2.2.6. X-RAY REFLECTIVITY OF FOAM FILMS 73 2.3. SPHERICAL FOAM FILMS 74 2.3.1. MEASUREMENT OF THE COEFFICIENT OF GAS PERMEABILITY TROUGH 78 FOAM FILMS 2.3.2. METHOD FOR FORMATION OF FOAM FILMS FROM INSOLUBLE 80 SURFACTANTS REFERENCES 82 CHAPTER 3 PHYSICAL CHEMISTRY OF FOAMS FILMS 88 3.1. ELEMENTS OF THE THERMODYNAMICS OF FOAM FILMS 89 3.1.1. CURVED LIQUID FILMS 89 3.1.2. PLANE-PARALLEL THIN LIQUID FILMS 91 CONTENTS 3.1.3. THERMODYNAMICS OF FOAM FILMS 93 3.1.4. MECHANICAL MODEL OF THE FOAM FILM AND ITS ADJACENT 96 MENISCUS 3.1.5. CONTACT ANGLES 98 3.1.6. LINE TENSION AT A CIRCULAR LIQUID FILM 100 NON-EQUILIBRIUM PROPERTIES OF FOAM FILMS 102 3.2.1. KINETICS OF THINNING OF FOAM FILMS 102 3.2.1.1. ASYMMETRIC DRAINAGE OF FOAM FILMS 110 3.2.1.2. KINETICS OF FORMATION OF FOAM FILMS 113 3.2.2. KINETICS OF RUPTURE OF FOAM FILMS 115 3.2.2.1. CRITICAL THICKNESS OF FILM RUPTURE 115 3.2.2.2. CRITICAL THICKNESS OF RUPTURE AND BLACK SPOT 118 FORMATION IN MICROSCOPIC FOAM FILMS SURFACE FORCES IN FOAM FILMS 122 3.3.1. DISJOINING PRESSURE ISOTHERM AND EXPERIMENTAL 124 VERIFICATION OF THE DLVO-THEORY 3.3.2. POTENTIAL OF THE DIFFUSE ELECTRIC LAYER AT SOLUTION/AIR 134 INTERFACE 3.3.3. SURFACE FORCES IN FOAM FILMS FROM AMPHIPHILIC BLOCK 150 COPOLYMERS 3.3.3.1. TRANSITION FROM ELECTROSTATIC TO STERIC STABILISATION 150 IN FOAM FILMS FROM ABA TRIBLOCK COPOLYMERS 3.3.3.2. DYNAMIC METHOD FOR SURFACE FORCE MEASURMENT IN 157 FOAM FILMS FROM ABA TRIBLOCK COPOLYMERS 3.3.3.3. DISJOINING PRESSURE IN FOAM FILMS FROM ABA 162 TRIBLOCK COPOLYMERS BLACK FOAM FILMS (NANO BLACK FILMS) 167 3.4.1. SURFACE FORCES IN BLACK FOAM FILM 168 3.4.1.1. ISOTHERMS OF DISJOINING PRESSURE OF BLACK FILMS FROM 171 NON-IONIC SURFACTANT SOLUTIONS 3.4.1.2. ISOTHERMS OF DISJOINING PRESSURE OF BLACK FILMS FROM 179 PHOSPHOLIPIDS 3.4.1.3. ISOTHERMS OF DISJOINING PRESSURE OF BLACK FILMS FROM 191 IONIC SURFACTANT SOLUTIONS 3.4.2. TRANSITION FROM COMMON BLACK TO NEWTON BLACK FILMS 199 3.4.2.1. TWO EQUILIBRIUM STATES OF BLACK FOAM FILMS 200 3.4.2.2. EXPERIMENTAL INVESTIGATIONS OF CBF/NBF TRANSITION 201 3.4.2.3. METASTABLE BLACK FOAM FILMS 209 3.4.2.4. ELESTROSTATIC ORIGIN OF THE TRANSITION TO NBF 212 3.4.2.5. MAIN DIFFERENCES BETWEEN CBF AND NBF 216 3.4.2.6. THICKNESS TRANSITION IN FOAM FILMS 218 3.4.3. RELATIONSHIP BETWEEN BLACK FOAM FILM FORMATION AND THE 226 PROPERTIES OF THE SURFACTANT ADSORPTION LAYERS 3.4.3.1. PROPERTIES OF THE ADSORPTION LAYERS 226 CONTENTS IX 3.4.3.2. PROBABILITY FOR OBSERVATION OF BLACK FOAM FILMS 230 DEPENDING ON THE ADSORPTION LAYER STATE 3.4.3.3. FORMATION OF BLACK FOAM FILMS FROM AN INSOLUBLE 234 SURFACTANT MONOLAYER 3.4.4. BILAYER BLACK FOAM FILMS (NBF) 236 3.4.4.1. COMPARISON OF THE LIFETIME/SURFACTANT CONCENTRATION DEPENDENCE OF CBF AND NBF 237 3.4.4.2. THEORY OF RUPTURE OF AMPHIPHILE BILAYERS 238 3.4.4.3. EXPERIMENTAL RESULTS ON STABILITY OF AMPHIPHILE 249 BILAYERS 3.4.4.4. PHASE TRANSITIONS IN PHOSPHOLIPID FOAM BILAYERS 263 3.4.4.5. LINEAR ENERGY OF HOLES IN AMPHIPHILE BILAYERS 273 3.4.4.6. LINEAR ENERGY OF THE CONTACT LINE BLACK FOAM FILM/ 276 BULK LIQUID 3.5. DIFFUSION PROCESSES IN FOAM FILMS 282 3.5.1. GAS PERMEABILITY OF FOAM FILMS 282 3.5.2. GAS PERMEABILITY OF NBF 290 3.5.3. LATERAL DIFFUSION IN PHOSPHOLIPID BLACK FOAM FILMS 295 3.5.4. LATERAL DIFFUSION OF VACANCIES IN NBF 300 3.6. SIMILARITY OF FOAM FILMS WITH EMULSION AND ASYMMETRIC THIN 303 LIQUID FILMS 3.6.1. EMULSION FILMS 303 3.6.2. ASYMMETRIC FILMS OF THE LIQUID/LIQUID/GAS TYPE 309 REFERENCES 322 CHAPTER 4 FOAM STRUCTURAL PARAMETERS AND RELATED PROPERTIES: TECHNIQUES 345 FOR DETERMINATION 4.1. RELATION BETWEEN THE GEOMETRICAL (STRUCTURAL) PARAMETERS OF A FOAM 345 AND ITS PHYSICOCHEMICAL CHARACTERISTICS 4.2. DETERMINATION OF FOAM EXPANSION RATIO (FOAM DENSITY) 357 4.3. DETERMINATION OF PRESSURE IN FOAM PLATEAU BORDERS 359 4.4. DETERMINATION OF FOAM DISPERSITY 362 4.5. STUDY OF FOAM LIQUID DISTRIBUTION AND PLATEAU BORDER PROFILES 375 REFERENCES 377 CHAPTER 5 FOAM DRAINAGE 381 5.1. A BRIEF CHARACTERISATION OF FOAM DRAINAGE 381 5.2. TECHNIQUES FOR THE STUDY OF FOAM DRAINAGE 383 5.3. FOAM DRAINAGE AT HIGH PRESSURE DROP 385 5.3.1. HYDRODYNAMIC MODEL OF A FOAM 385 5.3.2. LIQUID FLOW THROUGH POLYHEDRAL FOAMS WITH DIFFERENT TYPES 392 OF FOAM FILMS 5.3.2.1. LIQUID FLOW IN GRAVITATIONAL FIELD 392 5.3.2.2. LIQUID FLOW UNDER PRESSURE DROP 397 X CONTENTS 5.3.3. EQUATIONS FOR DRAINAGE UNDER PRESSURE DROP 403 5.3.4. FOAM DRAINAGE AND THE KINETICS OF ESTABLISHING EQUILIBRIUM 409 PRESSURE IN THE FOAM LIQUID PHASE: EXPERIMENTAL STUDIES 5.3.4.1. KINETICS OF ESTABLISHING PRESSURE IN THE FOAM LIQUID 410 PHASE 5.3.4.2. INFLUENCE OF THE TYPE OF FOAM FILMS ON FOAM 418 DRAINAGE 5.4. GRAVITATIONAL DRAINAGE OF A FOAM 420 5.4.1. EQUATIONS OF GRAVITATIONAL DRAINAGE 420 5.4.2. INITIAL STAGE OF DRAINAGE 426 5.4.3. INFLUENCE OF THE FOAM STRUCTURE AND THE PROPERTIES OF THE 431 FOAMING SOLUTION ON THE DRAINAGE RATE 5.4.4. DRAINAGE OF THREE-PHASE FOAMS 439 5.5. INFLUENCE OF INTERNAL FOAM COLLAPSE ON DRAINAGE 442 REFERENCES 442 CHAPTER 6 FOAM COLLAPSE 447 6.1. TECHNIQUES INVOLVED IN THE STUDY OF THE KINETICS OF INTERNAL FOAM 449 COLLAPSE 6.2. INTERNAL FOAM COLLAPSE AT DIFFUSION GAS TRANSFER 455 6.3. COALESCENCE AND STRUCTURAL REARRANGEMENT 464 6.4. KINETICS OF INTERNAL FOAM COLLAPSE 468 6.5. DECAY OF THE FOAM COLUMN 473 6.5.1. FOAM COLUMN DECAY IN GRAVITATIONAL FIELD 474 6.5.2. INFLUENCE OF PLATEAU BORDER PRESSURE ON FOAM COLUMN 476 DESTRUCTION 6.5.3. FOAM BREAKDOWN IN CENTRIFUGAL FIELD 486 6.6. COMPARISON BETWEEN THE RATE OF INTERNAL FOAM COLLAPSE AND THE 494 DECREASE IN FOAM VOLUME REFERENCES 498 CHAPTER 7 FOAM STABILITY AND THE STABILISING ABILITY OF SURFACTANTS 502 7.1. DEFINITION OF THE TERM FOAM STABILITY AND FOAMING ABILITY OF SOLUTIONS 502 7.2. CHARACTERISTICS OF STABILITY RELATED TO FOAM COLUMN DECAY 505 7.3. KINETIC FACTORS OF FOAM STABILITY 510 7.4. THERMODYNAMIC FACTORS OF FOAM STABILITY 519 7.5. MODEL APPROACH TO THE STUDY OF FOAM STABILITY AND ANALYSIS OF 520 THE STABILISING FACTORS 7.5.1. ROLE OF FOAM FILMS IN THE STABILITY OF FOAMS 520 7.5.2. STABILITY OF A REAL FOAM 527 7.6. PHYSICOCHEMICAL PROPERTIES OF SURFACTANTS AND THE STABILISING ABILITY 530 OF THEIR SOLUTIONS 7.6.1. FOAM STABILISING PROPERTIES OF SURFACTANTS DETERMINED BY 534 FOAM PRESSURE DROP TECHNIQUE AND ROSS-MILES TEST CONTENTS XI 7.6.2. EFFECT OF THE ISOELECTRIC STATE AT THE SOLUTION/AIR INTERFACE ON 539 THE STABILITY OF FOAMS FROM NONIONIC SURFACTANTS 7.7. DEPENDENCE OF THE FOAMING ABILITY ON THE MODE OF FOAM FORMATION 543 AND THE PROPERTIES OF THE SURFACTANT SOLUTIONS 7.8. FOAMING ABILITY OF SOLUTIONS AND FOAM STABILITY 545 7.9. STABILISING ABILITY AND HYDROPHILE-LIPOPHILE BALANCE OF SURFACTANTS 549 7.10. STABILITY OF DYNAMIC FOAMS 556 7.11. FOAMED EMULSIONS WITH LARGE VOLUME FRACTION OF THE DISPERSE PHASE 561 REFERENCES 565 CHAPTER 8 PHYSICAL PROPERTIES OF FOAMS 571 8.1. MECHANICAL PROPERTIES 571 8.2. RHEOLOGICAL PROPERTIES 574 8.3. ELECTRICAL PROPERTIES 586 8.3.1. ELECTRICAL CONDUCTIVITY 586 8.3.2. ELECTROKINETIC PROPERTIES 590 8.4. OPTICAL PROPERTIES 593 8.5. THERMOPHYSICAL PROPERTIES 601 REFERENCES 606 CHAPTER 9 FOAM BREAKDOWN BY ANTIFOAMS 610 9.1. TECHNIQUES FOR DETERMINATION OF THE DEFOAMING EFFICIENCY OF 611 SUBSTANCES 9.2. ADSORPTION (HOMOGENEOUS) MECHANISM OF FOAM BREAKDOWN 619 9.3. DEFOAMING IN HETEROGENEOUS SYSTEMS 623 9.3.1. INHIBITION OF BLACK SPOT FORMATION IN MICROSCOPIC FOAM 626 FILMS 9.3.2. ROLE OF ANTIFOAM SPREADING 628 9.3.3. MECHANISM OF HETEROGENEOUS DEFOAMING 631 9.4. DEFOAMING ABILITY OF SOLID HYDROPHOBIC PARTICLES 638 9.5. INVERSION OF THE DEFOAMING ABILITY OF ALCOHOLS 647 REFERENCES 652 CHAPTER 10 TECHNOLOGICAL APPLICATION OF FOAMS: PHYSICOCHEMICAL GROUND 656 10.1. CLASSIFICATION OF FOAMS AND FILMS BY THE PROPERTIES DETERMINING THEIR 656 TECHNOLOGICAL APPLICATION 10.2. GENERAL PRINCIPLES OF REGULATION OF THE PHYSICOCHEMICAL PROPERTIES 658 OF FOAMS 10.3. ACCUMULATION AND SEPARATION OF SURFACTANTS IN A FOAM 663 10.3.1. CLASSIFICATION OF THE METHODS OF SURFACE SEPARATION 663 10.3.2. CHARACTERISTICS OF THE EFFECTIVENESS OF ACCUMULATION, 666 SEPARATION AND PURIFICATION OF SURFACTANT SOLUTIONS 10.3.3. EXPERIMENTAL STUDIES ON THE ACCUMULATION OF INDIVIDUAL 682 SURFACTANTS AND MIXTURES XU CONTENTS 10.3.4. FOAM SEPARATION OF SURFACTANT COMPONENTS FROM MIXTURES 697 10.4. OPTIMISATION OF THE PROCESSING PROPERTIES OF SOLIDIFYING FOAMS 703 10.4.1. THERMAL INSULATORS FROM FROZEN AQUEOUS FOAMS 704 10.4.2. OLIGOMER POLYMER FOAMS 712 10.5. EXAMPLES OF FOAM INHIBITION IN THE PROCESS OF EXTRACTION AND IN 716 EMULSION METALWORKING FLUIDS 10.6. EXAMPLES OF THE USE OF NATURAL PRODUCTS AS FOAMING AGENTS 718 10.7. USE OF FOAMS IN PETROLEUM AND GAS INDUSTRIES 719 REFERENCES 729 CHAPTER 11 BLACK FOAM FILMS: APPLICATION IN MEDICINE 738 11.1. BLACK FILM METHOD FOR ASSESSMENT OF FOETAL LUNG MATURITY 738 11.2. PHASE STATE OF FOAM BILAYER (NBF) FROM AMNIOTIC FLUID 744 11.3. A NEW HYPOTHESIS OF THE STRUCTURE AND STABILITY OF ALVEOLAR SURFACE 751 11.4. BLACK FILM METHOD FOR ASSESSMENT OF THERAPEUTIC SURFACTANTS 754 REFERENCES 758 SYMBOLS SUBJECT INDEX 761 768
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spelling	Exerowa, Dotchi Verfasser aut Foam and foam films theory, experiment, application Dotchi Exerowa ; Pyotr M. Kruglyakov Amsterdam [u.a.] Elsevier 1998 XXII, 773 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Studies in interface science 5 Foam Membranes (Technology) Schaum (DE-588)4116372-2 gnd rswk-swf Schaum (DE-588)4116372-2 s DE-604 Krugljakov, Pjotr M. Verfasser aut Studies in interface science 5 (DE-604)BV010480178 5 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008345096&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Exerowa, Dotchi Krugljakov, Pjotr M. Foam and foam films theory, experiment, application Studies in interface science Foam Membranes (Technology) Schaum (DE-588)4116372-2 gnd
subject_GND	(DE-588)4116372-2
title	Foam and foam films theory, experiment, application
title_auth	Foam and foam films theory, experiment, application
title_exact_search	Foam and foam films theory, experiment, application
title_full	Foam and foam films theory, experiment, application Dotchi Exerowa ; Pyotr M. Kruglyakov
title_fullStr	Foam and foam films theory, experiment, application Dotchi Exerowa ; Pyotr M. Kruglyakov
title_full_unstemmed	Foam and foam films theory, experiment, application Dotchi Exerowa ; Pyotr M. Kruglyakov
title_short	Foam and foam films
title_sort	foam and foam films theory experiment application
title_sub	theory, experiment, application
topic	Foam Membranes (Technology) Schaum (DE-588)4116372-2 gnd
topic_facet	Foam Membranes (Technology) Schaum
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008345096&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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