Povrchové napětí - kde hledat informace

Odpovídající kapitoly učebnic fyziky a fyzikální chemie, například

Horák Z., Krupka: Praktická fyzika, část třetí, H. Mechanika, 46 Povrchové napětí
Hála E., Reiser A.: Fyzikální chemie 1, část 3.2.2 Termodynamika kapalných systémů;
Moore W.J.: Fyzikální chemie, kapitola 11 (ve 2. českém vydání SNTL/Alfa 1981 strana 485)
Brdička R., Dvořák J.:Základy fysikální chemie, kapitola III.F.1-3 (ve vydání Academia Praha 1977 strana 280)
Pozrikidis, C. (ed.): Fluid Dynamics - Theory, Computation, and Numerical Simulation. Kluwer Academic Publishers 2001 (ISBN 0-7923-7351-0), kapitola 5 Hydrostatics, zejména 5.8 Axisyrnmetric shapes.

Monografie, přehledné články, učebnice:

Surface and Colloid Science, Volume 1, ed. Egon Matijević. 1969 Wiley-Interscience (celá)
Novější, ale zaměřená na polymery je Wu S.: Polymer Interface and Adhesion. M. Dekker 1982.
Jůza J.: Povrchové a mezifázové vlastnosti polymerů. ÚMCH ČSAV 1990 - kapitoly 1, 2
Bartovská L., Čechová M., Šišková M.: Přehled metod pro stanovení rovnovážných mezifázových napětí. Chemické listy 86, 480-491 (1992)
Jůza J.: Měření povrchového napětí polymerů. ÚMCH AV ČR 1995 - oddíly 2.1, 2.2, 2.7, 2.8, 3.1, 3.5
Bartovská L., Šišková M.: Co je co v povrchové a koloidní chemii http://vydavatelstvi.vscht.cz/knihy/uid_es-001/
Bartovská L., Šišková M.: Fyzikální chemie povrchů a koloidních soustav http://vydavatelstvi.vscht.cz/knihy/uid_isbn-80-7080-579-X/pages-img/

Kompilovaný výtah z části výše citovaných prací

Neprověřené tipy

Langevin D., Meunier J.: Interfacial Tension - Theory and Experiment. Micelles,Membranes,Microemulsions,and Monolayers 1994, s.485-519
Altmayer F.: Methods of measuring surface tension. Plating and Surface Finishing 83(3), s.40-41 (1996)
Franses E.I., Basaran O.A., Chang C.H.: Techniques to measure dynamic surface tension. Current Opinion in Colloid & Interface Science 1(2), s.296-303 (1996)

Teorie povrchového napětí

Tolman R.C.: The effect of droplet size on surface tension. Journal of Chemical Physics 17(3), s.333-337 (1949)
Adamson A.W.: Physical chemistry of surfaces 1960,

K jednotlivým metodám:

Teoretické základy k metodám vyhodnocujícím zakřivení fázového rozhraní:

Základní literatura

Hartland S., Hartley R.W.: Axisymmetric fluid-liquid interfaces. Elsevier 1976
Chen G.P., Neumann A.W.: Computational Evaluation of Axisymmetric Drop Shape Analysis-Profile (ADSA-P). Colloids and Surfaces 62(4), s.297-305 (1992)

Další informace

Padday J.F.: Heights of sessile drops and meniscus properties. Nature 198, s.378-379 (1963)
Padday J.F.: The equilibrium and stability properties of menisci: the measurement of surface tension by exact methods. Pure and Applied Chemistry 48, s.485-494 (1976)
Padday J.F.: The profiles of axially symmetric menisci. Philosoph.Trans.Roy.Soc.London 269(1197), s.265-293 (1971)
Padday J.F., Pitt A.R.: The stability of axisymmetric menisci. Philosoph.Trans.Roy.Soc.London 275(1253), s.489-528 (1973)
Gaydos J., Neumann A.W.: Generalized Theory of Capillarity for Axisymmetric Menisci. Advances in Colloid and Interface Science 38, s.143-227 (1992)
Thiessen D.B., Chione D.J., Mccreary C.B., Krantz W.B.: Robust digital image analysis of pendant drop shapes. Journal of Colloid and Interface Science 177(2), s.658-665 (1996)
Lahooti S., Delrio O.I., Neumann A.W., Chen G.P.: Axisymmetric drop shape analysis (ADSA). Applied Surface Thermodynamics 63, s.441-507 (1996)

Metoda visící kapky:

Základní literatura

Ambwani D.S., Fort T.: Pendant drop technique for measuring liquid boundary tensions. In Surface and Colloid Science, Volume 11, ed. Robert J. Good, 1979 Plenum Press, New York str. 93-119.
Roe R.J., Bachetta V.L., Wong P.M.G.: Refinement of pendent drop method for the measurement of surface tension of viscous liquid. Journal of Physical Chemistry 71(13), s.4190-4193 (1967)
Misak M.D.: Equations for determining 1/H versus S values in computer calculations of interface tensions by pendant drop method. Journal of Colloid and Interface Science 27(1), s.141-142 (1968)
Girault H.H., Schiffrin D.J., Smith B.D.V.: Drop image processing for surface and interfacial tension measurements. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 137(2), s.207-217 (1982)
Rotenberg Y., Boruvka L., Neumann A.W.: Determination of surface tension and contact angle from the shapes of axisymmetric fluid interfaces. Journal of Colloid and Interface Science 93(1), s.169-183 (1983)
Boyce J.F., Schurch S., Rotenberg Y., Neumann A.W.: The measurement of surface and interfacial tension by the axisymmetric drop technique. Colloids and Surfaces 9, s.307-317 (1984)
Anastasiadis S.H., Chen J.K., Koberstein J.T., Siegel A.F., Sohn J.E., Emerson J.A.: The determination of interfacial tension by video image processing of pendant fluid drops. Journal of Colloid and Interface Science 119(1), s.55-66 (1987)
Morita A.T., Carastan D.J., Demarquette N.R.: Influence of drop volume on surface tension evaluated using the pendant drop method. Colloid. Polym. Sci. 280, 857-864 (2002)

Další informace

Andreas J.M., Hauser E.A.,Tucker W.B.: J. Phys. Chem. 42, 1001 (1938)
Fordham S.:Proc.Roy.Soc. A (London) 194,1 (1948)
Stauffer C.E.: The measurement of surface tension by the pendant drop technique. Journal of Physical Chemistry 69(6), 1933-1938 (1965)
Wu S.: Surface and interfacial tensions of polymer melts.1.Polyethylene,polyisobutylene,and polyvinylacetate. Journal of Colloid and Interface Science 31(2), s.153-161 (1969)
Rastogi A.K., St.Pierre L.E.: Interfacial phenomena in macromolecular systems III.The surface free energy of polyethers. Journal of Colloid and Interface Science 31(2), s.168-175 (1969)
Ramakrishnan S., Princz J.F., Hartland S.: Measurement of surface and interfacial tensions from the shape of a pendant drop. Indian Journal of the Pure and Applied Physics 15(4), s.228-233 (1977)
Huh C., Reed R.L.: A method for estimating Interfacial tensions and contact angles from sessile and pendant drop shapes. Journal of Colloid and Interface Science 91(2), s.472-484 (1983)
Girault H.H., Schiffrin D.J., Smith B.D.V.: The measurement of interfacial tension of pendant drops using a video image profile digitizer. Journal of Colloid and Interface Science 101(1), s.257-266 (1984)
Bhatia Q.S., Chen J.K., Koberstein J.T., Sohn J.E., Emerson J.A.: The measurement of polymer surface tension by drop image processing:application to PDMS and comparison with theory. Journal of Colloid and Interface Science 106(2), s.353-359 (1985)
Nguyen D.C., McKinnon I.R., Wilson I.R.: Internal illumination of pendant drops for the measurement of interfacial tensions. Journal of Colloid and Interface Science 119(1), s.275-276 (1987)
Matsubara H., Murase M., Mori Y.H., Nagashima A.: Mesurement of the surface tensions and the interfacial tensions of n-pentane-water and R113 - water systems. International Journal of Thermophysics 9, s.409 (1988)
Chiwetelu C.I., Hornof V., Neale G.H.: The measurement of dynamic interfacial tension by photo-micropendography. Journal of Colloid and Interface Science 125, s.586 (1988)
Kakiuchi T., Nakanishi M., Senda M.: The electrocapillary curves of the phosphatidylcholin monolayer at the pol.oil-water interface.1.Measur.interf.tens.us.PDM. Bulletin of the Chemical Society of Japan 61, s.1845-1851 (1988)
Satherley J., Girault H.H., Schiffrin D.J.: The measurement of ultralow interfacial tension by video digital techniques. Journal of Colloid and Interface Science 136(2), s.574-580 (1990)
Hansen F.K., Rodsrud G.: Surface tension by pendant drop. I. A fast standard instrument using computer image analysis. Journal of Colloid and Interface Science 141(1), s.1-9 (1991)
Hansen F.K.: Surface Tension by Image Analysis - Fast and Automatic Measurements of Pendant and Sessile Drops and Bubbles. Journal of Colloid and Interface Science 160(1), s.209-217 (1993)
Garandet J.P., Vinet B., Gros P.: Considerations on the Pendant Drop Method - A New Look at Tate Law and Harkins Correction Factor. Journal of Colloid and Interface Science 165(2), s.351-354 (1994)
Touhami Y., Neale G.H., Hornof V., Khalfalah H.: A modified pendant drop method for transient and dynamic interfacial tension measurement. Colloids and Surfaces A - Physicochemical and Engineering Aspects 112(1), s.31-41 (1996)
Hayami Y.: The influence of asymmetry in drop shape on an interfacial tension measurement. Colloid and Polymer Science 274(7), s.643-647 (1996)
Faour G., Grimaldi M., Richou J., Bois A.: Real-time pendant drop tensiometer using image processing with interfacial area and interfacial tension control capabilities. Journal of Colloid and Interface Science 181(2), s.385-392 (1996)
Song B.H., Springer J.: Determination of interfacial tension from the profile of a pendant drop using computer-aided image processing .1. Theoretical. Journal of Colloid and Interface Science 184(1), s.64-76 (1996)
Song B.H., Springer J.: Determination of interfacial tension from the profile of a pendant drop using computer-aided image processing .2. Experimental. Journal of Colloid and Interface Science 184(1), s.77-91 (1996)
Semmler A., Ferstl R., Kohler H.H.: New laser technique for automatic interfacial tension measurements: Laser scanning drop shape analysis (LASDA). Langmuir 12(17), s.4165-4172 (1996)
Jůza J.: The pendant drop method of surface tension measurement: Equation interpolating the shape factor tables for several selected planes. Czechoslovak Journal of Physics 47(3), s.351-357 (1997)
Delrio O.I., Neumann A.W.: Axisymmetric drop shape analysis: Computational methods for the measurement of interfacial properties from the shape and dimensions of pendant and sessile drops. Journal of Colloid and Interface Science 196(2), s.136-147 (1997)
Kevin Alam and M. R. Kamal: Interfacial Tension Measurement of Polymers with the Pendant Drop Method: A Comprehensive Experimental Review. ANTEC 1999 Plastics: Bridging the Millennia, Volume 2: Materials. Society of Plastics Engineers 1999 (ISBN 1-56676-805-5.2).

Ostatní metody vycházející z tvaru rozhraní

Lyons C.J., Elbing E., Wilson I.R.: The rod-in-free surface technique for surface-tension measurement using small rods. Journal of Colloid and Interface Science 102(1), s.292-294 (1984)
Badran A.A., Marschall E.: Oscillating pendant drop:a method for the measurement of dynamic surface and interface tension. Review of Scientific Instruments 57(2), s.259-263 (1986)
Skinner F.K., Rotenberg Y., Neumann A.W.: Contact angle measurements from the contact diameter of sessile drops by means of a modified axisymmetric drop shape analysis. Journal of Colloid and Interface Science 130, s.25 (1989)
Hiller W.J., Kowalewski T.A.: Experimental analysis of free oscillating liquid drops. 10.Australas.Fluid Mech.conf.Melbourne 1989, s.1
Hiller W.J., Kowalewski T.A.: Surface tension measurements by the oscillating droplet method. PCH,Physicochem.Hydrodyn. 11(1), s.103-112 (1989)
Hu H.H., Joseph D.D.: Evolution of a liquid drop in a spinning drop tensiometer. Journal of Colloid and Interface Science 162(1), s.331-339 (1994)
Tsay R.Y., Yan S.C., Lin S.Y.: A video-enhanced plate method for simultaneous measurements of surface tension and contact angle. Review of Scientific Instruments 66(10), s.5065-5069 (1995)
Schoolenberg G.E., During F.: Coalescence and interfacial tension measurements for polymer melts: A technique using the spinning drop apparatus. Polymer 39(4), s.757-763 (1998)
Zhang X.M., Kim J.K.: Interfacial tension measurement with the Neumann triangle method. Macromolecular Rapid Communications 19(9), s.499-504 (1998)
Milica Rodic, Andrew N. Hrymak: The Modified Imbedded Disc Retraction Method For Measurement Of Interfacial Tension In Polymer Melts. Society of Plastics Engineers 2000 (ISBN 1-56676-957-4.1), p. 155

Kontaktní úhly

Surface and Colloid Science, Volume 11, ed. Robert J. Good, 1979 Plenum Press, New York (část 2. (Techniques of Measuring Contact Angles),
Kano Y., Akiyama S.: Estimation of Surface Tension and Interfacial Interaction of Poly(Ethyl Acrylate) Poly(Vinylidene Fluoride-CO-Hexafluoro Acetone) Blends by the Contact Angle Method. Journal of Adhesion Science and Technology 6(11), s.1251-1264 (1992)
Gunde R., Hartland S., Mader R.: Sphere tensiometry: A new approach to simultaneous and independent determination of surface tension and contact angle. Journal of Colloid and Interface Science 176(1), s.17-30 (1995)
Komunjer L., Mutaftschiev B.: A quasi two-dimensional bubble method for surface tension and contact angle measurements at the crystal-melt interface .1. Theoretical background. Journal of Crystal Growth 182, s.198-204 (1997)
Komunjer L., Clausse D., Mutaftschiev B.: A quasi two-dimensional bubble method for surface tension and contact angle measurements at the crystal-melt interface .2. Physical realization. Journal of Crystal Growth 182, s.205-211 (1997)

Kapilární elevace

?Rashidnia N., Balasubramaniam R., Delsignore D.: Interfacial Tension Measurement of Immiscible Liquids Using a Capillary Tube. AICHE Journal 38(4), s.615-618 (1992)
Gu Y.G., Li D.Q., Chen G.P.: A novel contact angle measurement technique by analysis of capillary rise profile around a cylinder (ACRPAC). Colloids and Surfaces A - Physicochemical and Engineering Aspects 122, s.135-149 (1997)

Měření silou - kroužková tensiometrie, Wilhelmyho destička

Schwuger M.J., Rostek H.M.: Automatic apparatus for the measurement of surface tension by the Wilhelmy method. Chemie Ingenieur Technik 43(19), s.1075-1078 (1971)
Lunkenheimer K.: The effect of contact angle on ring tensiometry: An experimental study. Journal of Colloid and Interface Science 131, s.580 (1989)
Sauer B.B., Dipaolo N.V.: Surface tension and dynamic wetting of polymers using the Wilhelmy method: Applications to high molecular weights and elevated . Journal of Colloid and Interface Science 144(2), s.527-537 (1991)
Tsay R.Y., Yan S.C., Lin S.Y.: A video-enhanced plate method for simultaneous measurements of surface tension and contact angle. Review of Scientific Instruments 66(10), s.5065-5069 (1995)

Stalagmometrie

Badiali J.P., Cachet C., Cachet H., Lestrade J.: Method for the absolute determination of the surface tension from the mass and shape of a drop formed at the end of a capillar. Journal de Chimie Physique et de Physico - Chimie Biologique 68(5), s.743-746 (1971)
Tanaka T., Kon-no I., Kadoya T.: Bubble volume method for the measurement of dynamic surface tension of surfactant solutions. Journal of Colloid and Interface Science 132, s.139 (1989)
Doyle P.J., Carroll B.J.: An improved version of the drop volume tensiometer applied to aqueous/silicone oil systems. Progress in Colloid and Polymer Science 82(166), s.166-169 (1990)
Paluch M., Rybska J.: Influence of some organic substances on the surface potential and on the surface tension at the water/air interface. Journal of Colloid and Interface Science 145(1), s.219-223 (1991)
Matsuki H., Kaneshina S., Yamashita Y., Motomura K.: Automatic surface tension measurements of aqueous surfactant solutions by the drop volume method. Langmuir 10(11), s.4394-4396 (1994)
Earnshaw J.C., Johnson E.G., Carroll B.J., Doyle P.J.: The drop volume method for interfacial tension determination: An error analysis. Journal of Colloid and Interface Science 177(1), s.150-155 (1996)
Campanelli J.R., Wang X.H.: Effect of neck formation on the measurement of dynamic interfacial tension in a drop volume tensiometer. Journal of Colloid and Interface Science 190(2), s.491-496 (1997)

Max. tlak v bublině

Boitsov V.G., Boguslavskij L.I., Miller E.V.: Automatic recording of surface tension changes determined by the bubble maximum pressure method. Zhurnal Fizicheskoi Khimii 40(10), s.2650-2651 (1966)
Dunstan D., White L.R.: A capillary pressure method for measurement of contact angles in powder and porous media. Journal of Colloid and Interface Science 111, s.60 (1986)
Garret P.R., Ward D.R.: A reexamination of the measurement of dynamic surface tensions using the maximum bubble pressure method. Journal of Colloid and Interface Science 132, s.475 (1989)
Fainerman V.B.: On the surface tension measurement by the bubble pressure method in the millisecond range. Kolloidnyj Zurnal 52(5), s.921 (1990)
Joos P., Fang J.P., Serrien G.: Comments on Some Dynamic Surface Tension Measurements by the Dynamic Bubble Pressure Method. Journal of Colloid and Interface Science 151(1), s.144-149 (1992)
Schramm L.L., Green W.H.F.: An absolute differential maximum bubble pressure surface tensiometer employing displaced capillaries. Colloid and Polymer Science 270(7), s.694-706 (1992)
Holcomb C.D., Zollweg J.A.: Improved differential bubble pressure surface tensiometer. Journal of Colloid and Interface Science 154(1), s.51-65 (1992)
Macleod C.A., Radke C.J.: A Growing Drop Technique for Measuring Dynamic Interfacial Tension. Journal of Colloid and Interface Science 160(2), s.435-448 (1993)
Fainerman V.B., Miller R., Joos P.: The Measurement of Dynamic Surface Tension by the Maximum Bubble Pressure Method. Colloid and Polymer Science 272(6), s.731-739 (1994)
Soos J.M., Koczo K., Erdos E., Wasan D.T.: An Automatic Apparatus for Measuring Interfacial and Film Tension Under Static and Dynamic Conditions. Review of Scientific Instruments 65(11), s.3555-3562 (1994)
Zhang X.G., Harris M.T., Basaran O.A.: Measurement of dynamic surface tension by a growing drop technique. Journal of Colloid and Interface Science 168(1), s.47-60 (1994)
Liggieri L., Ravera F., Passerone A.: Dynamic interfacial tension measurements by a capillary pressure method. Journal of Colloid and Interface Science 169(1), s.226-237 (1995)
Joos P., Vanuffelen M.: Theory on the growing drop technique for measuring dynamic interfacial tensions. Journal of Colloid and Interface Science 171(2), s.297-305 (1995)
Nagarajan R., Koczo K., Erdos E., Wasan D.T.: Controlled drop tensiometer for measuring dynamic interfacial and film tension. AICHE Journal 41(4), s.915-923 (1995)

Jiné metody

Vonnegut B.: Hydrometer-type float method for measuring surface and interfacial tensions. Review of Scientific Instruments 13, s.82-83 (1942)
Garner F.H., Garfias F.J.: Determination of surface tension from the dimensions of a bubble profile. Journal of Colloid and Interface Science 26(2), s.253-255 (1968)
Rao N.V.R., Baird M.H.I.: Continuous measurement of surface and interfacial tension by stationary slug method. Canadian Journal of Chemical Engineering 61(4), s.581-589 (1983)
Sauer B.B., Skarlupka R.J., Sano M.: Dynamic interfacial tensions of polymer soluitons by an electrocapillary wave technique. Polymer preprints 28, s.20 (1987)
Trinh E.H., Marston P.L., Robey J.L.: Acoustic measurements of the surface tension of levitated drops. Journal of Colloid and Interface Science 124(1), s.95-103 (1988)
Carriere C.J., Cohen A., Arends Ch.B.: Estimation of interfacial tension using shape evolution of short fibers. Journal of Rheology 33, s.681 (1989)
Elemans P.H.M., Janssen J.M.J., Meijer H.E.H.: The measurement of interfacial tension in polymer/polymer systems: The breaking thread method. Journal of Rheology 34(8), s.1311-1325 (1990)
Passerone A., Liggieri L., Rando N., Ravera F., Ricci E.: A new experimental method for the measurement of the interfacial tension between immiscible fluids at zero bond number. Journal of Colloid and Interface Science 146(1), s.152-162 (1991)
Gramespacher H., Meissner J.: Interfacial Tension Between Polymer Melts Measured by Shear Oscillations of Their Blends. Journal of Rheology 36(6), s.1127-1141 (1992)
Nagarajan R., Wasan D.T.: Measurement of dynamic interfacial tension by an expanding drop tensiometer. Journal of Colloid and Interface Science 159(1), s.164-173 (1993)
Josell D., Spaepen F.: Determination of the Interfacial Tension by Zero Creep Experiments on Multilayers .1. Theory. Acta Metallurgica et Materialia 41(10), s.3007-3015 (1993)
Mordasov M.M., Galizdra B.I., Astakhov V.P.: Contactless pneumatic method for surface tension measurements. Industrial Laboratory 60(9), s.544-546 (1994)
Tjahjadi M., Ottino J.M., Stone H.A.: Estimating Interfacial Tension via Relaxation of Drop Shapes and Filament Breakup. AICHE Journal 40(3), s.385-394 (1994)
Lima L.R., Dunphy D.R., Synovec R.E.: Dynamic Surface Tension Detection by Optically Probing a Repeating Drop Rate. Analytical Chemistry 66(8), s.1209-1216 (1994)
Lima L.R., Synovec R.E.: Laser-based dynamic surface tension detection for liquid chromatography by probing a repeating drop radius. Journal of Chromatography A 691, s.195-204 (1995)
Tian Y., Holt R.G., Apfel R.E.: A new method for measuring liquid surface tension with acoustic levitation. Review of Scientific Instruments 66(5), s.3349-3354 (1995)
Bechtel S.E., Cooper J.A., Forest M.G., Petersson N.A., Reichard D.L., Saleh A., Venkataramanan V.: A new model to determine dynamic surface tension and elongational viscosity using oscillating jet measurements. Journal of Fluid Mechanics 293, s.379-403 (1995)
Krotov V.V., Prokhorov V.A., Pavlov S.Y., Rusanov A.I.: The method of touching drops as a new way of measuring the surface and interfacial tension of liquids including surfactant solutions. Mendeleev Communications 1995(4), s.148-149
Bayazitoglu Y., Sathuvalli U.B.R., Suryanarayana P.V.R., Mitchell G.F.: Determination of surface tension from the shape oscillations of an electromagnetically levitated droplet. Physics of Fluids 8(2), s.370-383 (1996)
Ozawa A., Minamisawa A.: Noncontact measurement of surface tension by ripplon light scattering spectroscopy. Japanese Journal of Applied Physics Part 1 - Regular Papers Short Notes & Review Papers 36, s.2951-2954 (1997)