05223nam 2200661Ia 450 991013364540332120170815163255.03-527-64160-21-283-37041-797866133704193-527-63118-63-527-63117-8(CKB)3400000000000380(EBL)700844(OCoLC)794326247(SSID)ssj0000482465(PQKBManifestationID)11295260(PQKBTitleCode)TC0000482465(PQKBWorkID)10528077(PQKB)11740159(MiAaPQ)EBC700844(EXLCZ)99340000000000038020100331d2010 uy 0engur|n|---|||||txtccrColloids in paints[electronic resource] /Tharwat F. TadrosWeinheim Wiley-VCHc20101 online resource (272 p.)Colloids and interface science series ;v. 6Description based upon print version of record.3-527-31466-0 Includes bibliographical references and index.Colloids in Paints; Contents; Preface; 1 Colloids in Paints; 1.1 The Disperse Particles; 1.2 The Dispersion Medium and Film Formers; 1.3 Deposition of Particles and Their Adhesion to the Substrate; 1.4 Flow Characteristics (Rheology) of Paints; References; 2 Emulsion, Dispersion and Suspension Polymerization: Preparation of Polymer Colloids and Their Stabilization; 2.1 Emulsion Polymerization; 2.1.1 Mechanism of Emulsion Polymerization; 2.1.2 Block Copolymers as Stabilizers in Emulsion Polymerization; 2.1.3 Graft Copolymers as Stabilizers in Emulsion Polymerization2.2 Polymeric Surfactants for Stabilization of Preformed Latex Dispersions2.3 Dispersion Polymerization; 2.3.1 Mechanism of Dispersion Polymerization; 2.3.2 Influence of Polymeric Surfactant Concentration and Molecular Weight on Particle Formation; 2.3.3 Effect of Monomer Solubility and Concentration in the Continuous Phase; 2.3.4 Stability/Instability of the Resulting Latex; 2.3.5 Particle Formation in Polar Media; References; 3 Pigment Dispersion; 3.1 Powder Wetting; 3.1.1 Wetting of Substrates; 3.1.2 Adhesion Tension; 3.1.3 Work of Adhesion, Wa; 3.1.4 The Work of Cohesion3.1.5 Spreading Coefficient,S3.1.6 Contact Angle Hysteresis; 3.1.7 Reasons for Hysteresis; 3.1.8 Wenzel's Equation; 3.1.9 Surface Heterogeneity; 3.1.10 Critical Surface Tension of Wetting; 3.1.11 Effect of Surfactant Adsorption; 3.1.12 Wetting of Powders by Liquids; 3.1.13 Rate of Penetration of Liquids. The Rideal-Washburn Equation; 3.1.14 Measurement of Wettability of Powders; 3.1.14.1 Submersion Test - Sinking Time or Immersion Time; 3.1.14.2 Measurement of Contact Angles of Liquids and Surfactant Solutions on Powders; 3.1.15 Wetting Agents for Hydrophobic Pigments3.1.16 Adsorption and Wetting Dynamics3.1.17 General Theory of Adsorption Kinetics; 3.1.17.1 Adsorption Kinetics from Micellar Solutions; 3.1.17.2 Experimental Techniques for Studying Adsorption Kinetics; 3.2 Breaking of Aggregates and Agglomerates (Deagglomeration); 3.2.1 Classification of Dispersants; 3.2.2 Assessment and Selection of Dispersants; 3.2.2.1 Adsorption Isotherms; 3.2.3 Measurement of Dispersion and Particle Size Distribution; 3.2.3.1 Optical Microscopy; 3.2.3.2 Electron Microscopy; 3.2.3.3 Confocal Scanning Laser Microscopy (CLSM); 3.2.3.4 Scattering Techniques3.3 Wet Milling (Comminution)3.3.1 Bead Mills; 3.3.2 Principle of Operation of Bead Mills; References; 4 Colloid Stabilization of Paint Dispersions; 4.1 Electrostatic Double Layer Repulsion; 4.1.1 Structure of the Solid/Liquid Interface - Origin of Charges on Surfaces; 4.1.2 Structure of the Electrical Double Layer; 4.1.2.1 Diffuse Double layer (Gouy and Chapman); 4.1.2.2 Stern-Grahame Model of the Double Layer; 4.1.3 Electrical Double Layer Repulsion; 4.1.4 Van der Waals Attraction; 4.2 Total Energy of Interaction; 4.2.1 Deryaguin-Landau-Verwey-Overbeek (DLVO) Theory4.2.2 Flocculation of Electrostatically Stabilized SuspensionsThe first modern approach to relate fundamental research to the applied science of colloids, this series bridges academic research and practical applications, thus providing the information vital to both. Written by the very best scientists in their respective disciplines, this volume describes the role of colloids in paints, highlighting the importance of fundamental research in industrial applications.For surface, polymer and physicochemists, materials scientists, and chemical engineers.Colloids and interface science series ;v. 6.ColloidsIndustrial applicationsPaintElectronic books.ColloidsIndustrial applications.Paint.541.345667.6Tadros Th. F885066MiAaPQMiAaPQMiAaPQBOOK9910133645403321Colloids in paints2163464UNINA01943oam 2200541I 450 991071406660332120201109104200.0(CKB)5470000002506979(OCoLC)761465185(EXLCZ)99547000000250697920111115j196811 ua 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierInfluence of angle of glide slope on the accuracy of performing instrument approaches in a simulator /by Lindsay J. Lina and George C. CanavosWashington, D.C. :National Aeronautics and Space Administration,November 1968.1 online resource (42 pages) illustrationsNASA technical note ;TN D-4835"November 1968."Includes bibliographical references (page 21).Instrument landing systemsAirplanesLandingSimulation methodsGlide path systemsAirplanesLandingSimulation methodsfastGlide path systemsfastInstrument landing systemsfastInstrument landing systems.AirplanesLandingSimulation methods.Glide path systems.AirplanesLandingSimulation methods.Glide path systems.Instrument landing systems.Lina Lindsay J.1419939Canavos George C.United States.National Aeronautics and Space Administration,Langley Research Center.OCLCEOCLCEOCLCQOCLCFOCLCQGPOBOOK9910714066603321Influence of angle of glide slope on the accuracy of performing instrument approaches in a simulator3536059UNINA01080nam a2200265 i 4500991003631299707536080519s1999 it ab 001 0 ita d8815066853b13726869-39ule_instFacoltà SSPTita943.05Schilling, Heinz 139754Corti e alleanze :la Germania dal 1648 al 1763 /Heinz Schilling Bologna :Il mulino,c1999586 p., [4] c. di tav. :ill. ;22 cm Le vie della civiltà.Storia della Germania Trad. di Maurizio Ricciardi GermaniaStoria1648-1763 .b1372686902-04-1419-05-08991003631299707536LE021 943.05 SCH01.0112020000003717le021pE29.95-n- 01010.i1475542719-05-08LE016 943.05 SCH 01.0212016000113075le016nE29.95-no 00000.i1478868801-07-08Corti e alleanze1229878UNISALENTOle020le01619-05-08ma -itait 00