欢迎登录材料期刊网

材料期刊网

高级检索

从三个重要方面介绍了基于杨氏方程计算固体表面能.阐述了接触角测量技术的基本假设、对固体和液体材料的要求及测量仪设计;叙述了各种常见液体表面能的测量方法及其适用范围;详述了两大类固体表面能、固液界面能和液体表面能的关系模型,并分析了各自的实效性.最后,总结了此类计算方法存在的一些本质问题.

参考文献

[1] Straughan B .Surface-tension-driven convection in a fluid overlying a porous layer[J].Journal of Computational Physics,2001,170(01):320.
[2] X. P. ZHANG;H. W. WANG;Y. W. SHI .Influence of minute amount of elements Bi, Ag and In on surface tension and soldering process performance of tin-lead based solders[J].Journal of Materials Science. Materials in Electronics,2004(8):511-517.
[3] Rodorico Giorgi;Luigi Dei;Piero Baglioni .A NEW METHOD FOR CONSOLIDATING WALL PAINTINGS BASED ON DISPERSIONS OF LIME IN ALCOHOL[J].Studies in conservation,2000(3):154-161.
[4] Kruk M.;Sayari A.;Jaroniec M. .APPLICATION OF LARGE PORE MCM-41 MOLECULAR SIEVES TO IMPROVE PORE SIZE ANALYSIS USING NITROGEN ADSORPTION MEASUREMENTS[J].Langmuir: The ACS Journal of Surfaces and Colloids,1997(23):6267-6273.
[5] Schick M .Surface films of nonionic detergents-Ⅰ.Surface tension study[J].Journal of Colloid Science,1962,17(09):801.
[6] Hideo Maruyama;Akira Suzuki;Hideshi Seki .Enrichment in axial direction of aqueous foam in continuous foam separation[J].Biochemical Engineering Journal,2006(3):253-259.
[7] Loudet JC;Yodh AG;Pouligny B .Wetting and contact lines of micrometer-sized ellipsoids[J].Physical review letters,2006(1):8304-1-8304-4-0.
[8] H. Ju;D.H. Lee;K.S. Kim;D.H. Kim;J.Y. Kwak .Properties and applications of non-shrinkage chemical grout for repairing and strengthening of concrete structures[J].World journal of engineering,2012(5):423-428.
[9] Langevin D. .Influence of interfacial rheology on foam and emulsion properties[J].Advances in Colloid and Interface Science,2000(1/2):209-222.
[10] Jean-Mario Nhut;Laurie Pesant;Jean-Philippe Tessonnier;Gauthier Wine;Cuong Pham-Huu;Marc-Jacques Ledoux;Jean Guille .Mesoporous carbon nanotubes for use as support in catalysis and as nanosized reactors for one-dimensional inorganic material synthesis[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2003(2):345-363.
[11] Kumar G;Prabhu KN .Review of non-reactive and reactive wetting of liquids on surfaces[J].Advances in colloid and interface science,2007(2):61-89.
[12] Kumikov V;Khokonov K B .On the measurement of surface free energy and surface tension of solid metals[J].Journal of Applied Physics,1983,54(03):1346.
[13] Vargha-Butler E;Zubovits T et al.Surface tension effects in the sedimentation of polymer particles in various liquid mixtures[J].Journal of Dispersion Science and Technology,1985,6(03):357.
[14] Tyson W;Miller W .Surface free energies of solid metals:Estimation from liquid surface tension measurements[J].Surface Science,1977,62(01):267.
[15] Sangwal K .On the estimation of surface entropy factor,interfacial tension,dissolution enthalpy and metastable zonewidth for substances crystallizing from solution[J].Journal of Crystal Growth,1989,97(02):393.
[16] Fuerstenau D;Diao J;Hanson J .Estimation of the distribution of surface sites and contact angles on coal particles from film flotation data[J].Energy and Fuels,1990,4(01):34.
[17] Vangiessen AE.;Widom B.;Bukman DJ. .CONTACT ANGLES OF LIQUID DROPS ON LOW-ENERGY SOLID SURFACES[J].Journal of Colloid and Interface Science,1997(1):257-265.
[18] Yi-Lin Hung;Yao-Yuan Chang;Meng-Jiy Wang;Shi-Yow Lin .A simple method for measuring the superhydrophobic contact angle with high accuracy[J].Review of Scientific Instruments,2010(6):065105-1-065105-9.
[19] Neumann A;Kwok D.Contact angles and surface energetics[M].New York:Dietrich Steinkopff,1998:170.
[20] Young T .An essay on the cohesion of fluids[J].Philosoph Trans Royal Soc London,1805,95:65.
[21] Butt HJ;Golovko DS;Bonaccurso E .On the derivation of Young's equation for sessile drops: Nonequilibrium effects due to evaporation[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,2007(19):5277-5283.
[22] Kwok DY.;Neumann AW. .Contact angle interpretation: re-evaluation of existing contact angle data[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2000(1):49-62.
[23] Kwok D;Neumann A .Contact angle measurement and contact angle interpretation[J].Advances in Colloid and Interface Science,1999,81(03):167.
[24] Wenzel R N .Resistance of solid surfaces to wetting by water[J].Industrial and Engineering Chemistry,1936,28(08):988.
[25] Cassie A B D .Contact angles[J].Discussions of the Faraday Society,1948,3:11.
[26] Kwok D;Lin R;Mui M et al.Low-rate dynamic and static contact angles and the determination of solid surface tensions[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,1996,116(01):63.
[27] Grundke K;Bogumil T;Gietzelt T et al.Wetting measurements on smooth,rough and porous solid surfaces[J].Interf Surfactants Colloids Eng,1996,101:58.
[28] Yang MW.;Lin SY. .A method for correcting the contact angle from the theta/2 method[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2003(1/3):199-210.
[29] Bateni A.;Susnar SS.;Amirfazli A.;Neumann AW. .A high-accuracy polynomial fitting approach to determine contact angles[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2003(1/3):215-231.
[30] Stalder AF;Kulik G;Sage D;Barbieri L;Hoffmann P .A snake-based approach to accurate determination of both contact points and contact angles[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2006(1/3):92-103.
[31] Adamson S;Zaitsevskii A;Dement'Ev A et al.Multi-partitioning QDPT and difference-dedicated CI calculations of non-adiabatic couplings:Application to charge transfer in LiF system[J].Journal De Physique Ⅱ,1997,7(03):393.
[32] Zuo Y Y;Do C;Neumann A W .Automatic measurement of surface tension from noisy images using a component labeling method[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2007,299(01):109.
[33] Shanahan M E R .Profile and contact angle of small sessile drops.A more general approximate solution[J].Journal of the Chemical Society,Faraday Transactions,1984,80(01):37.
[34] Stalder A F;Melchior T;Müiler M et al.Low-bond axisymmetric drop shape analysis for surface tension and contact angle measurements of sessile drops[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2010,364(01):72.
[35] Brown R .The surface tension of liquids[J].Contemporary Physics,1974,15(04):301.
[36] Rayleigh L .On the theory of the capillary tube[J].Proceedings of the Royal Society of London Series A,1916,92(637):184.
[37] Yildirim O E;Xu Q;Basaran O A .Analysis of the drop weight method[J].Physics of Fluids,2005,17:062107.
[38] Adamson A W;Gast A P.Physical chemistry of surfaces[M].New York:John Wiley and Sons,Inc,1997:4.
[39] Lee B B;Ravindra P;Chan E S .A critical review:Surface and interfacial tension measurement by the drop weight method[J].Chemical Engineering Communications,2008,195(08):889.
[40] Mysels K J .Improvements in the maximum-bubble-pressure method of measuring surface tension[J].Langmuir,1986,2(04):428.
[41] Yuu Fujimura;Masaaki Iino .The surface tension of water under high magnetic fields[J].Journal of Applied Physics,2008(12):124903-1-124903-4-0.
[42] Ivan Egry .Surface Tension Measurements in Microgravity and their Relevance to Marangoni Convection[J].Chemphyschem: A European journal of chemical physics and physical chemistry,2003(4):329-333.
[43] Kalantarian A;Ninomiya H;Saad SM;David R;Winklbauer R;Neumann AW .Axisymmetric drop shape analysis for estimating the surface tension of cell aggregates by centrifugation.[J].Biophysical Journal,2009(4):1606-1616.
[44] Fowkes F M .Attractive forces at interfaces[J].Industrial and Engineering Chemistry,1964,56(12):40.
[45] Owens D K;Wendt R .Estimation of the surface free energy of polymers[J].Journal of Applied Polymer Science,1969,13(08):1741.
[46] Kaelble D .Dispersion-polar surface tension properties of organic solids[J].Journal of Adhesion,1970,2(02):66.
[47] van Oss C J;Chaudhury M K;Good R J .Interfacial lifshitzvan der waals and polar interactions in macroscopic systems[J].Chemical Reviews,1988,88(06):927.
[48] 48 van Oss C J .Use of the combined Lifshitz-van der Waals and Lewis acid-base approaches in determining the apolar and polar contributions to surface and interfacial tensions and free energies[J].Journal of Adhesion Science and Technology,2002,16(06):669.
[49] Kwok D;Li D;Neumann A .Evaluation of the Lifshitz-van der Waals/acid-base approach to determine interfacial tensions[J].Langmuir,1994,10(04):1323.
[50] Antonow G .Surface tension at the limit of two layers[J].Journal de Chimie Physique,1907,5:372.
[51] Mitroy J;Zhang J Y .Long-range dispersion interactions.Ⅱ.Alkali-metal and rare-gas atoms[J].Physical Review A,2007,76(03):032706.
[52] Good R J;Elbing E .Generalization of theory for estimation of interfacial energies[J].Industrial and Engineering Chemistry,1970,62(03):54.
[53] Girifalco L;Good R .A theory for the estimation of surface and interfacial energies.Ⅰ.Derivation and application to interfacial tension[J].Journal of Physical Chemistry,1957,61(07):904.
[54] Li D;Neumann A .Contact angles on hydrophobic solid surfaces and their interpretation[J].Journal of Colloid and Interface Science,1992,148(01):190.
[55] Kwok DY.;Neumann AW. .Contact angle interpretation in terms of solid surface tension[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2000(1):31-48.
[56] Kwok DY.;Lam CNC.;Li A.;Wu R.;Neumann AW.;Leung A. .Low-rate dynamic contact angles on poly(methyl methacrylate) and the determination of solid surface tensions[J].Journal of Colloid and Interface Science,1998(1):44-51.
[57] Robert Finn;John McCuan;Henry C. Wente .Thomas Young’s Surface Tension Diagram: Its History, Legacy, and Irreconcilabilities[J].Journal of mathematical fluid mechanics,2012(3):445-453.
[58] Sakai Hideki;Fujii Tomiko .Dependence of the apparent contact angles on gravity[J].Journal of Colloid and Interface Science,1999(1):152-0.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%