Wiley
Characterization and Analysis of Polymers
John Wiley & Sons 2008.2
997 pp.(H)
ISBN 0-470-23300-1
34,600円
Contents
1. Characterization of Polymers/ 2. Test Methods/ 3. Molecular Weight Determination/ 4. Infrared Spectroscopy/ 5. Nuclear Magnetic Resonance/ 6. Mass Spectrometry/ 7. Laser Light Scattering/ 8. Chromatography, Size Exclusion/ 9. Chromatography, HPLC/ 10. Morphology/ 11. Surface Analysis/ 12. Fractography/ 13. Nondestructive Testing/ 14. X-ray Microscopy/ 15. Atomic Force Microscopy/ 16. Scanning Force Microscopy/ 17. Neutron Scattering 18. Vibrational Spectroscopy/ 19. Microscopy/ 20. Dynamic Mechanical Analysis/ 21. Rheological Measurements/ 22. Crystallinity Determination/ 23. Micromechanical Properties/ 24. Thermal Analysis of Polymers/ 25. Dielectric Relaxation/ 26. Electron Spin Resonance/ Index/
* A valuable resource on polymer characterization and analysis for scientists and practitioners in various disciplines *
Soares, J. B. P. ed.
Polyolefin Characterization
The First International Conference on Polyolefin Characterization
Wiley-VCH 2008.2
170 pp.(H)
ISBN 3-527-32192-6
18,000円
Contents
1.An overview of important microstructural distributions for polyolefin analysis/ 2.Development of an automated crossfractionation apparatus, TREF-GPC, for a full characterization of the bivariate distribution in polyolefins/ 3.Examples of using 3D-GPC-TREF for polyolefin characterization/ 4.Separation and characterization of ethylene-propylene copolymers by high-temperature gradient HPLC coupled to FTIR spectroscopy/ 5.Molecular topology fractionation of polystyrene stars and long chain branched polyethylene fractions/ 6.Crystallization elution fractionation. A new separation process for polyolefin resins/ 7.Block Index for Characterizing Olefin Block Copolymers/ 8.A mathematical model for the kinetics of crystallization in Crystaf/ 9.Characterization of ethylene-1-hexene copolymers made with supported metallocene catalysts: Influence of support type/ 10.Application of fractionation technique to the studies of olefin polymerization kinetics and polymer degradation/ 11.Synthesis and characterization of ethylene/propylene copolymers in the whole composition range/ 12.Characterization of polyethylene nascent powders synthesized by TpTiCl2(OR) catalysts/ 13.Characterization of LDPE grafted with diethylmaleate by gamma radiation: Application of FTIR, GPC and SSA techniques/ 14.Thermal stability evaluation of PA6/LLDPE/SEBS-g-DEM blends/ 15.Using solvents to improve the chemical shift differences between short-chain branch methines and long-chain branch methines in polyethylene copolymers/
* An excellent overview of recent advances in polyolefin characterization, providing many facts hitherto unavailable. The top quality contributions span such fields as separation and fractionation, high throughput, thermal and crystallinity analysis, spectroscopy and rheology. *
Stamm, M. ed.
Polymer Surfaces and Interfaces
Characterization, Modification and Applications
Springer-Verlag 2008.3
324 pp.(H)
ISBN 3-540-73864-9
19,800円
Contents
1 Polymer Surface and Interface Characterization Techniques/ 2 Structure Determination in Thin Film Geometry Using Grazing Incidence Small-Angle Scattering/ 3 Vibrational Spectroscopic and Optical Methods/ 4 X-Ray Photoelectron Spectroscopy/ 5 Time-of-Flight Secondary Ion Mass Spectrometry/ 6 Characterization of Polymer Surfaces by Wetting and Electrokinetic Measurements - Contact Angle, Interfacial Tension, Zeta Potential/ 7 Mechanical Properties of Polymers at Surfaces and Interfaces/ 8 Interfaces Between Incompatible Polymers/ 9 Liquid-Liquid and Liquid-Vapor Interfaces in Polymeric Systems/ 10 Plasma Modification of Polymer Surfaces and Plasma Polymerization/ 11 Grafting on Solid Surfaces: Grafting to and Grafting from Methods/ 12 Surface Modification by Adsorption of Polymers and Surfactants/ 13 Nanostructures in Thin Films from Nanostructured Polymeric Templates: Self-Assembly/ 14 Influencing the Interface in Polymer Blends by Compatibilization with Block / 15 Interfacial Phenomena of Biomaterials/ References/ Index/ *
Brinson, H. F. et al.
Polymer Engineering Science and Viscoelasticity
An Introduction
Springer-Verlag 2007.12
448 pp.(H)
ISBN 0-387-73860-6
15,400円
Contents
Part.1. Introduction: 1.1. Historical Background/ 1.2. Review Questions/ Part.2. Stress and Strain Analysis and Measurement: 2.1. Some Important and Useful Definitions/ 2.2. Elementary Definitions of Stress, Strain and Material Properties/ 2.3. Typical Stress-Strain Properties/ 2.4. Idealized Stress-Strain Diagrams/ 2.5. Mathematical Definitions of Stress, Strain and Material Characteristics/ 2.6. Principal Stresses/ 2.7. Deviatoric and Dilatational Components of Stress and Strain/ 2.8. Failure (Rupture or Yield) Theories/ 2.9. Atomic Bonding Model for Theoretical Mechanical Properties/ 2.10. Review Questions/ 2.11. Problems/ Part.3. Characteristics, Applications and Properties of Polymers: 3.1. General Classification and Types of Polymers/ 3.2. Typical Applications/ 3.3. Mechanical Properties of Polymers/ 3.4. An Introduction to Polymer Viscoelastic Properties and Characterization/ 3.5. Phenomenological Mechanical Models/ 3.6. Review Questions/ 3.7. Problems/ Part.4. Polymerization and Classification: 4.1. Polymer Bonding/ 4.2. Polymerization/ 4.3. Classification by Bonding Structure Between Chains and Morphology of Chains/ 4.4. Molecular Configurations/ 4.5. Random Walk Analysis of Chain End-to-End Distance/ 4.6. Morphology/ 4.7. Molecular Weight/ 4.8. Methods for the Measurement of Molecular Weight/ 4.9. Polymer Synthesis Methods/ 4.10. Spectrography/ 4.11. Review Questions/ 4.12. Problems/ Part.5. Differential Constitutive Equations: 5.1. Methods for the Development of Differential Equations for Mechanical Models/ 5.2. A Note on Realistic Creep and Relaxation Testing/ 5.3. Generalized Maxwell and Kelvin Models/ 5.4. Alfreyユs Correspondence Principle/ 5.5. Dynamic Properties - Steady State Oscillation Testing/ 5.6. Review Questions/ 5.7. Problems/ Part.6. Hereditary Integral Representations of Stress and Strain: 6.1. Boltzman Superposition Principle/ 6.2. Linearity/ 6.3. Spectral Representation of Viscoelastic Materials/ 6.4. Interrelations Among Various Viscoelastic Properties/ 6.5. Review Questions/ 6.6. Problems/ Part.7. Time and Temperature Behavior of Polymers: 7.1. Effect of Temperature on Viscoelastic Properties of Amorphous Polymers/ 7.2. Development of Time Temperature-Superposition-Principle (TTSP)Master Curves/ 7.3. Exponential Series Representation of Master Curves/ 7.4. Constitutive Law with Effective Time/ 7.5. Molecular Mechanisms Associated with Viscoelastic Response/ 7.6. Entropy Effects and Rubber Elasticity/ 7.7. Physical and Chemical Aging/ 7.8. Review Questions/ 7.9. Problems/ Part.8. Elementary Viscoelastic Stress Analysis for Bars and Beams: 8.1. Fundamental Concepts/ 8.2. Analysis of Axially Loaded Bars/ 8.3. Analysis of Circular Cylinder Bars in Torsion/ 8.4. Analysis of Prismatic Beams in Pure Bending/ 8.5. Stresses and Deformation in Beams for Conditions other than Pure Bending/ 8.6. Shear Stresses and Deflections in Beams/ 8.7. Review Questions/ 8.8. Problems/ Part.9. Viscoelastic Stress Analysis in Two and Three Dimensions: 9.1 Elastic Stress-Strain Equations/ 9.2 Viscoelastic Stress-Strain Relations/ 9.3 Relationship Between Viscoelastic Moduli (Compliances)/ 9.4 Frequently Encountered Assumptions in Viscoelastic Stress Analysis/ 9.5 General Viscoelastic Correspondence Principle/ 9.6 Thick Wall Cylinder and Other Problems/ 9.7 Solutions Using Broadband Bulk, Shear and Poissonユs Ratio Measured Functions/ 9.8 Review Questions/ 9.9 Problems/ Part.10. Nonlinear Viscoelasticity: 10.1. Types of Nonlinearities/ 10.2. Approaches to Nonlinear Viscoelastic Behavior/ 10.3. The Schapery Single-Integral Nonlinear Model/ 10.4. Empirical Approach To Time-Stress-Superposition (TSSP)/ 10.5. Review Questions/ 10.6. Problems/ Part.11. Rate and Time-Dependent Failure: Mechanisms and Predictive Models: 11.1. Failure Mechanisms in Polymers/ 11.2. Rate Dependent Yielding/ 11.3. Delayed or Time Dependent Failure of Polymers/ 11.4. Review Questions/ 11.5. Problems/ References/ Author Index/ *
Chang Dae Han
Rheology and Processing of Polymeric Materials Vol.2:
Polymer Processing
Oxford U.P. 2006.8
579 pp.(H)
ISBN 0-19-518783-0
24,000円
Contents
* 第二巻ではポリマー加工の基礎原理を、熱可塑性ポリマーと熱硬化性ポリマーについて、まとめています。
Part III: Processing of Thermoplastic Polymers / 15.Flow of Polymeric Liquids in Complex Geometry / 16.Plasticating Single-Screw Extrusion / 17.Morphology Evolution of Immiscible Polymer Blends During Compounding / 18.Compatibilization of Two Immiscible Homopolymers / 19.Wire Coating Extrusion / 20.Fiber Spinning / 21.Tubular Film Blowing / 22.Injection Molding / 23.Coextrusion / 24.Thermoplastic Foam Processing / Part IV: Processing of Thermosets / 25.Reaction Injection Molding / 26.Pultrusion of Thermoset/Fiber Composites / 27.Compression Molding of Thermoset/Fiber Composites / *
Skotheim, T. A. & Reynolds, J. ed.
Handbook of Conducting Polymers 3rd ed. (2 volumes)
導電性ポリマーハンドブック 全2巻
CRC Press 2007.
1680 pp. (H)
ISBN 1-57444-665-7
38,600円
Contents
Volume 1: Conjugated Polymers: Theory, Synthesis, Properties, and Characterization: PART 1: THEORY OF CONJUGATED POLYMERS. 1.On the Transport, Optical, and Self-Assembly Properties of p-Conjugated Materials: A Combined Theoretical/Experimental Insight / 2.Theoretical Studies of Electron-Lattice Dynamics in Organic Systems / PART 2: SYNTHESIS AND CLASSES OF CONJUGATED POLYMERS. 3.Helical Polyacetylene Synthesized in Chiral Nematic Liquid Crystals / 4.Synthesis and Properties of Poly(arylene vinylene)s / 5.Blue-Emitting Poly(para-Phenylene)-Type Polymers / 6.Poly(paraPhenyleneethynylene)s and Poly(aryleneethynylene)s: Materials with a Bright Future / 7.Polyaniline Nanofibers: Synthesis, Properties, and Applications / 8.Recent Advances in Polypyrrole / 9.Regioregular Polythiophenes / 10.Poly(3,4-Ethylenedioxythiophene)-Scientific Importance, Remarkable Properties, and Applications / 11.Thienothiophenes: From Monomers to Polymers / 12.Low Bandgap Conducting Polymers / 13.Advanced Functional Polythiophenes Based on Tailored Precursors / 14.Structure-Property Relationships and Applications of Conjugated Polyelectrolytes / PART 3: PROPERTIES AND CHARACTERIZATION OF CONJUGATED POLYMERS. 15.Insulator-Metal Transition and Metallic State in Conducting Polymers / 16.One-Dimensional Charge Transport in Conducting Polymer Nanofibers / 17.Structure Studies of p- and s- Conjugated Polymers / 18.Electrochemistry of Conducting Polymers / 19.Internal Fields and Electrode Interfaces in Organic Semiconductor Devices: Noninvasive Investigations via Electroabsorption / 20.Electrochromism of Conjugated Conducting Polymers / 21.Photoelectron Spectroscopy of Conjugated Polymers / 22.Ultrafast Exciton Dynamics and Laser Action in p-Conjugated Semiconductors /
Volume 2: Conjugated Polymers: Processing and Applications: PART 1: PROCESSING OF CONJUGATED POLYMERS. 1.Conductive Polymers as Organic Nanometals / 2.Conducting Polymer Fiber Production and Applications / 3.Inkjet Printing and Patterning of PEDOT-PSS: Application to Optoelectronic Devices / 4.Printing Organic Electronics on Flexible Substrates / PART 2: APPLICATIONS AND DEVICES BASED ON CONJUGATED POLYMERS. 5.Polymers for Use in Polymeric Light-Emitting Diodes: Structure-Property Relationships / 6.Organic Electro-Optic Materials / 7.Conjugated Polymer Electronics-Engineering Materials and Devices / 8.Electrical Bistable Polymer Films and Their Applications in Memory Devices / 9.Electroactive Polymers for Batteries and Supercapacitors / 10.Conjugated Polymer-Based Photovoltaic Devices / 11.Biomedical Applications of Inherently Conducting Polymers (ICPs) / 12.Biosensors Based on Conducting Electroactive Polymers / 13.Optical Biosensors Based on Conjugated Polymers / 14.Conjugated Polymers for Microelectromechanical and Other Microdevices / 15.Corrosion Protection Using Conducting Polymers / 16.Artificial Muscles / *
Binder, W. ed.
Hydrogen Bonded Polymers
Advances in Polymer Science , Vol.207
Springer-Verlag 2007.5
206 pp. (H)
ISBN 3-540-68587-1
28,800円
Contents
1.Supramolecular Polymers and Networks with Hydrogen Bonds in the Main- and Sidechain.- 2.Assembly via Hydrogen Bonds of Low Molar Mass Compounds into Supramolecular Polymers.- 3.Supramolecular Materials Based Upon Hydrogen Bonded Polymers.- 4.Nanocomposites Based on Hydrogen Bonds/ *
274-68 登録日 08.04.14
