Basics of Polymers, Volume Two : Testing and Characterization.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Subramanian
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Momentum Press, 2019.
Temas:
Polymers > Testing.
Polymers > Testing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; BASICS OF POLYMERS, VOLUME II: Instrumental Methods of Testing; Contents; List of Figures; Preface; Acknowledgments; Chapter 1: Introduction; 1.1. Objective: Polymer Testing; 1.2. Necessity of Instrumental Methods; 1.3. Specialization; Chapter 2: Importance of Polymer Testing; 2.1. Polymers; 2.1.1. Chemical Aspects; 2.1.2. Architectural Aspects; 2.2. Polymer Properties; 2.3. Functionality Type Distribution; 2.4. Chemical Composition Distribution; 2.5. Physical Properties; 2.6. Chemical Properties; 2.7. Thermal Properties; 2.8. Rheological Properties; 2.9. Additives
  • 2.10. Testing of Additives2.11. Instrumental Methods and Their Role; 2.12. Spectroscopy; 2.13. Chromatography; 2.14. Thermal Analysis; 2.15. Rheological Measurements; 2.16. Other Measurements; 2.17. Chemical Methods versus Instrumental Methods; 2.18. Importance of Instrumental Methods; Chapter 3: Spectroscopic Techniques; 3.1. Spectrophotometric Analysis; 3.2. Fourier Transform; 3.3. Ultraviolet and Visible Absorption Spectroscopy; 3.4. Near-Infrared (NIR) Spectroscopy; 3.4.1. Industrial Applications; 3.4.2. Advantages; 3.4.3. Disadvantage; 3.5. Infrared Spectroscopy; 3.5.1. Basics
  • 3.5.2. Fourier Transform Infrared Spectrophotometer3.5.3. Instrumentation; 3.5.4. Interferometry; 3.5.5. Attenuated Total Reflectance; 3.5.6. Importance of Infrared Spectroscopy; 3.5.7. Identification of Unknown Compounds; 3.5.8. Elemental Analysis; 3.5.9. Quantitative Analysis; 3.5.10. Molecular Structure; 3.5.11. Infrared Spectrum; 3.5.12. Shortcomings; 3.5.13. Some of the advantages of FTIR are; 3.6. Mass Spectrometry; 3.6.1. Instrumentation; 3.6.2. Mass Spectrometry and Polymers; 3.6.3. Pyrolysis-Mass Spectrometry; 3.6.4. Secondary Ion Mass Spectrometry; 3.6.5. Electrospray Ionization
  • 3.6.6. Field Desorption Mass Spectrometry3.6.7. Matrix-Assisted Laser Desorption Ionization Time-of-Flight; 3.6.8. Shortcomings; 3.6.9. Advantages; 3.7. Nuclear Magnetic Resonance Spectroscopy; 3.7.1. Basics; 3.7.2. NMR Spectrum; 3.7.3. Solvents; 3.7.4. Proton 1H NMR Spectrum; 3.7.5. Carbon 13C NMR Spectrum; 3.7.6. Fluorine 19F NMR Spectrum; 3.7.7. Shortcomings; 3.7.8. Advantages; 3.8. Raman Spectroscopy; 3.8.1. Importance of the Raman Spectrum; 3.8.2. Shortcomings; 3.8.3. Advantages; Chapter 4: Chromatographic Techniques; 4.1. High-Performance Liquid Chromatography; 4.1.1. Instrumentation
  • 4.1.2. Reverse Phase HPLC4.1.3. Mobile Phase; 4.1.4. Stationary Phase; 4.1.5. Elution; 4.1.6. Column; 4.1.7. Mechanism of Retention; 4.1.8. Chromatogram; 4.1.9. Advantages; 4.1.10. Shortcomings; 4.2. Size Exclusion Chromatography; 4.2.1. Instrumentation; 4.2.2. Detectors; 4.2.3 Effects on Column Packing; 4.2.4. Effects on Velocity; 4.2.5. Solvents Effect; 4.2.6. Calibration; 4.2.7. Plate Count; 4.2.8. Role of SEC; 4.2.9. Shortcomings; 4.2.10. Advantages; 4.3. Gas Chromatography; 4.3.1. Thermal Fragmentation; 4.3.2. Instrumentation; 4.3.3. Analyte Separation and Quantitative Determination

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