Polyurethane Shape Memory Polymers

Shape memory polymers (SMPs) are some of the most important and valuable engineering materials developed in the last 25 years. These fascinating materials demonstrate remarkably versatile properties—including capacity for actuation and stimulus responsiveness—that are enabling technologists to develop applications used to explore everything from the outer reaches of space to the inside of the human body. Polyurethane Shape Memory Polymers details the fundamentals of SMP makeup, as well as their shape-recovery features and their seemingly endless potential for use in applications ranging from the macro- to submicron scales. With an abundance of illustrations and vivid pictures to explain how SMPs and their composites work and how they can be used, this book covers: History and most recent developments in SMPs Thermomechanical properties and behavior of the polymers and their composites Modification of SMPs and novel actuation mechanisms Large-scale surface pattern generation Multi-shape memory effect Fabrication techniques Characterization of composites A must-have reference for anyone working in the materials science and engineering fields, this book outlines the properties—such as light weight, low cost, and ability to handle high strain—that make the easily processed SMPs so useful in fields including aerospace, biomedicine, and textiles. It is intended to help readers understand and apply the knowledge and techniques presented to develop new innovations that will further benefit society.

Introduction Shape Memory Materials and Shape Memory Polymers Mechanisms of Shape Memory Effects in Shape Memory Polymers Typical Applications of Shape Memory Polymers Polyurethane Shape Memory Polymers Outline of Book Thermomechanical Behavior of Polyurethane Shape Memory Polymer Glass Transition Temperature and Thermal Stability Dynamic Mechanical Properties Uniaxial Tension in Glass State Uniaxial Tension in Rubber State Recovery Tests Effects of Moisture on Glass Transition Temperature and Applications Moisture Absorption in Room-Temperature Water Glass Transition Temperature after Immersion Evolution of Glass Transition Temperature upon Thermal Cycling Interaction of Water and Polyurethane SMP Correlation of Moisture, Glass Transition Temperature, and Hydrogen Bonding New Features Based on Effects of Moisture Recovery Tests Electrically Conductive Polyurethane Shape Memory Polymers Preparation of Electrically Conductive Polyurethane SMP Shape Recovery by Passing Electrical Current Distribution of Carbon Powder in Polyurethane SMP Electrical Resistivity Thermal Stability Uniaxial Tensile Testing at Room Temperature Shape Memory Properties upon Heating Effects of Moisture on Electrically Conductive Polyurethane Shape Memory Polymers Absorption of Moisture in Room-Temperature Water Electrical Resistivity after Immersion Glass Transition Temperature after Immersion Evolution of Glass Transition Temperature upon Thermal Cycling Correlation of Moisture Absorption, Loading of Carbon Powder, and Glass Transition Temperature Effects of Moisture on Thermomechanical Properties Magnetic and Conductive Polyurethane Shape Memory Polymers Iron Oxide Micro Particles Nickel Micro and Nano Powders Electrically Conductive SMPs Shape Memory Polymer Nanocomposites Synthesis Techniques of SMP Nanocomposites Shape Memory Polymer Nanocomposites Porous Polyurethane Shape Memory Polymers Water as Foaming Agent for Porous SMPs Formation of Bubbles by Heat Treatment Thermomechanical Behaviors of SMP Foams Yield Surface of Foam Influence of Storage on Polyurethane SMP Foams Shape Memory Effects at Micro and Nanoscales SMP Thin Wires SMP Micro Beads SMP Thin and Ultrathin Films Surface Patterning atop Shape Memory Polymers Wrinkling atop Shape Memory Polymers Theory of Wrinkling Wrinkling atop SMPs Medical Applications of Polyurethane Shape Memory Polymers Thermo-Responsive Feature-Based Devices Thermo- and Moisture-Responsive Feature-Based Devices Toward Micro Machines Mechanisms of Multi-Shape and Temperature Memory Effects Multi-Shape Memory Effect and Temperature Memory Effect Demonstration of Multi-SME and TME in Polyurethane SMP Mechanisms Future of Polyurethane Shape Memory Polymers Characterization and Modeling of SMPs Stability of SME Cyclic Actuation Alternative Actuation Techniques Multiple Functions

W.M. Huang is an Associate Professor of Mechanical and Aerospace Engineering at Nanyang Technological University, Singapore.