Polymers in Information Storage Technology [E-Book] / edited by K. L. Mittal.
This volume documents the proceedings of the Symposium on Polymers in Information Storage Technology held as a part of the American Chemical Society meeting in Los Angeles, September 25-30, 1988. It should be recorded here that this symposium was cosponsored by the Division of Polymeric Materials: S...
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Full text |
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Personal Name(s): | Mittal, K. L., editor |
Imprint: |
Boston, MA :
Springer,
1989
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Physical Description: |
466 p. online resource. |
Note: |
englisch |
ISBN: |
9781461308430 |
DOI: |
10.1007/978-1-4613-0843-0 |
Subject (LOC): |
- I. Photochemical Aspects of Optical Recording
- Organic Materials for Optical Data Storage
- The Use of Radiations for the Modification of Polymers
- Optical Data Storage using Phase Separation of Polymer-Liquid Crystal Mixtures
- The Significance of Dielectric Relaxation Processes and Switching Properties for Data Storage in Liquid Crystal Polymer Media
- Photo-induced Isomerization—Nonlinear Optical Materials in Neuro-Optical Network
- II. Physicochemical Considerations in Optical Recording
- Polymeric Data Memories and Polymeric Substrate Materials for Information Storage Devices
- Thermally Irreversible Photochromic Materials for Erasable Optical Data Storage Media
- Rewritable Dye-Polymer Optical Storage Media
- Rewritable Dye-Polymer Optical Storage Medium: Dynamic Performance Characteristics
- Photochemical Hole Burning of Quinizarin and Tetraphenylporphin in Main-Chain Aromatic Polymers
- Materials for Mastering and Replication Processes in Optical Video, Audio and Data Disc Production
- III. Polymer Physics: Relevance to Optical Recording
- Magneto-Optical Recording Media Properties and Their Relationship to Composition, Deposition Techniques, and Substrate Properties
- Uniaxial Anisotropy Studies in Amorphous Tb-Fe on Polyimide Substrates
- Orientational and Stress Birefringence in Optical Disk Substrates
- Birefringence Analysis of Injection-Molded Polycarbonate (PC) Substrates
- Polymers as Mid-Infrared Holographic Recording Media
- Factors Affecting Polyimide Lightguide Quality
- IV. Bulk/Surface Chemical Considerations in Magnetic Recording
- Chemistry of an Epoxy-Phenolic Magnetic Disk Coating
- Biomimetic Routes to Magnetic Iron Oxide-Polymer Composites
- Rheological Characterization of High Solids Magnetic Dispersions
- The Role of Polymer Binder in Magnetic Recording Media
- The Particulate Media for Magnetic Recording: Characterization Techniques for Particle Dispersion and Orientation
- The Effect of Pigment Volume Concentration on the Magnetic and Mechanical Performance of Particulate Disk Coatings
- Volatilization Model for Polyperfluoroether Lubricants
- V. Physicochemical Aspects of Magnetic Recording
- Characterization and Hydrolysis of Magnetic Tapes
- Mechanism of Chemical Reactions Involved in Magnetic Coatings
- Plasma Polymer Films for Corrosion Protection of Cobalt-Nickel 80:20 Magnetic Thin Films
- Dynamic Mechanical Behavior of Thermoplastic Polyurethane in Magnetic Coatings
- Polyester-Polyurethane Interactions with Chromium Dioxide
- Role of Active Functional Groups and Conformation of Adsorbed Polymers in the Dispersibility of Magnetic Particles
- Rapid Determination of Coating Percent Pigment from Magnetic Recording Ink Density and Volume Fraction
- Melt Rheology of Partially Crosslinked Carbon Black Composites
- About the Contributors.