Detailansicht
Self-Healing Polymers
From Principles to Applications
ISBN/EAN: 9783527334391
Umbreit-Nr.: 4534627
Sprache:
Englisch
Umfang: 446 S.
Format in cm: 2.8 x 24.8 x 17.7
Einband:
gebundenes Buch
Erschienen am 05.06.2013
Auflage: 1/2013
- Zusatztext
- InhaltsangabeINTRODUCTION PART ONE: Design of Self-Healing Materials PRINCIPLES OF SELF-HEALING POLYMERS Introductory Remarks General Concept for the Design and Classification of Self-Healing Materials Physical Principles of Self-Healing Chemical Principles of Self-Healing Multiple versus One-Time Self-Healing Resume and Outlook SELFHEALING IN PLANTS AS BIOINSPIRATION FOR SELFREPAIRING POLYMERS SelfSealing and SelfHealing in Plants: A Short Overview Selected Self-Sealing and Self-Healing Processes in Plants as Role Models for Bio-Inspired Materials with Self-Repairing Properties BioInspired Approaches for the Development of SelfRepairing Materials and Structures BioInspired SelfHealing Materials: Outlook MODELING SELF-HEALING PROCESSES IN POLYMERS: FROM NANOGELS TO NANOPARTICLE-FILLED MICROCAPSULES Introduction Designing Self-Healing Dual Cross-Linked Nanogel Networks Designing 'Artificial Leukocytes' That Help Heal Damaged Surfaces via the Targeted Delivery of Nanoparticles to Cracks Conclusions PART TWO: Polymer Dynamics STRUCTURE AND DYNAMICS OF POLYMER CHAINS Foreword Techniques Structure Dynamics Application to Self-Healing Conclusions and Outlook PHYSICAL CHEMISTRY OF CROSS-LINKING PROCESSES IN SELF-HEALING MATERIALS Introduction Thermodynamics of Gelation Viscoelastic Properties of the Sol-Gel Transition Phase Separation and Gelation Conclusions THERMALLY REMENDABLE POLYMERS Principles of Thermal Healing InorganicOrganic Systems Efficiency, Assessment of Healing Performance Conclusions PHOTOCHEMICALLY REMENDABLE POLYMERS Background Molecular Design Reversible Photo-Crosslinking Behaviors Evaluation of Photo-Remendability Concluding Remarks MECHANOPHORES FOR SELF-HEALING APPLICATIONS Introduction Mechanochemical Damage Activation of Mechanophores Mechanochemical Self-Healing Strategies Conclusions and Outlook CHEMISTRY OF CROSSLINKING PROCESSES FOR SELF-HEALING POLYMERS Introduction Extrinsic Self-Healing Materials Intrinsic Self-Healing Materials Concluding Remarks and Future Outlook PREPARATION OF NANOCAPSULES AND CORE-SHELL NANOFI BERS FOR EXTRINSIC SELF-HEALING MATERIALS Selected Preparation Methods for the Encapsulation of Self-Healing Agents Mechanically Induced Self-Healing StimuliResponsive SelfHealing Materials Novel Approaches and Perspectives PART THREE: Supramolecular Systems SELFHEALING POLYMERS VIA SUPRAMOLECULAR, HYDROGENBONDED NETWORKS Introduction Dynamics of Hydrogen Bonds in Solution Supramolecular Gels SelfHealing Bulk Materials Conclusions METALCOMPLEXBASED SELFHEALING POLYMERS StimuliResponsive Metallopolymers SelfHealing Metallopolymers Summary and Outlook SELFHEALING IONOMERS Introduction Basic Principles of Ionomers Ionomers in Self-Healing Systems Actual Developments and Future Trends in Ionomeric and Related Self-Healing Systems PART FOUR: Analysis and Friction Detection in Self-Healing Polymers: Macroscopic, Microscopic and Nanoscopic Techniques METHODS TO MONITOR AND QUANTIFY (SELF-) HEALING IN POLYMERS AND POLYMER SYSTEMS Introduction Visualization Techniques Healing of Mechanical Properties Healing of Functional Integrity Summary SELFHEALING EPOXIES AND THEIR COMPOSITES Introduction CapsuleBased Healing System VascularBased Healing Systems Intrinsic Healing Systems Conclusions SELFHEALING COATINGS Introduction into Self-Healing Coatings Concept of Micro- and Nanocontainer-Based Self-Healing Coatings Types of Nanocontainers Characterization of Nanocontainer-Based Self-Healing Coatings Conclusions and Current Trends APPLICATION OF SELF-HEALING MATERIALS IN AEROSPACE ENGINEERING General Considerations Conclusions INDEX
- Kurztext
- InhaltsangabeINTRODUCTION: Self-Healing Materials DESIGN OF SELF-HEALING MATERIALS Principles of Self-Healing Polymers Biomimicry in Living Systems and Plants Modelling of Self-Healing Processes in Polymers POLYMER DYNAMICS Dynamics of Polymer-Chains Physical Chemistry of Crosslinking-Processes in Polymers Thermally Remendable Polymers Photochemically Remendable Polymers Mechanochemistry of Polymers Chemistry of Crosslinking Processes for Self-Healing Principles and Methods of Encapsulation SUPRAMOLECULAR SYSTEMS SelfHealing Polymers via Supramolecular, Hydrogen Bonded Networks MetalComplex Based SelfHealing Polymers Ionomers ANALYSIS AND FRICTION DETECTION IN SELF-HEALING POLYMERS: MACROSCOPIC, MICROSCOPIC AND NANOSCOPIC TECHNIQUES Analysis and Friction Detection in Self-Healing Polymers: Macroscopic, Microscopic and Nanoscopic Techniques EpoxyBased Systems and Composites SelfHealing Coatings Application of Self-Healing Materials in Aerospace Engineering
- Autorenportrait
- Wolfgang H. Binder is currently Full Professor for Macromolecular Chemistry at the Martin-Luther University Halle-Wittenberg (see www.macrochem.uni-halle.de). He received his PhD in Organic Chemistry in 1995 at the University of Vienna. In his post doc research at Emory University, USA, he specialized on colloidal chemistry/macro-molecular chemistry. In 1997 he became an Assistant Professor at the Technical University of Vienna and in 2004 Associate Professor. His research is focused on synthesis and self-assembly of tailored polymers and analytical polymer science, with applications in material science, nanotechnology and medicine; Wolfgang H. Binder has published more than 120 scientific articles.