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标题:Shape-memory polymers and their composites: Stimulus methods and applications
时间:2019-03-15 10:22:17
DOI:10.1016/j.pmatsci.2011.03.001
作者:Jinsong Leng;Xin Lan;Yanju Liu;Shanyi Du
出版源: 《Progress in Materials Science》 ,2011 ,56 (7) :1077-1135
摘要:Shape-memory polymers (SMPs) undergo significant macroscopic deformation upon the application of an external stimulus (e.g., heat, electricity, light, magn...
大小:5778 kb
页数:60 PAGES
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目录:
  • Shape-memory polymers and their composites: Stimulus methods and applications
    • Introduction
    • Fundamentals of shape-memory polymers
      • Background and definition
      • Comparison between shape-memory alloys and shape-memory polymers
      • Architecture of shape-memory polymers
      • Stimulus methods of shape-memory polymers
      • Categorization of shape-memory polymers
    • Fabrication, characterization and modeling of shape-memory polymers
      • Chemical architecture requirements of shape-memory polymers
      • Structural categorization of shape-memory polymers
        • Thermoplastic shape-memory polymers
        • Thermosetting shape-memory polymers
      • Synthesis of typical shape-memory polymers
        • Thermoplastic polyurethane shape-memory polymer
        • Thermosetting styrene-based shape-memory polymer
        • Thermosetting epoxy shape-memory polymer
        • Some novel shape-memory polymers
      • Characterization for shape-memory polymers
        • Chemical, thermal and mechanical properties
          • Fourier transform infrared spectroscopy (FTIR)
          • Morphology detection
          • Electrical conductivity measurement
          • Thermogravimetric analysis (TGA)
          • Differential scanning calorimetry (DSC)
          • Dynamic mechanical analysis (DMA)
          • Mechanical properties evaluation
        • Shape memory performance
      • Constitutive models for shape-memory polymers
        • Models based on viscoelasticity
        • Models based on phase transition
    • Stimulus methods of multi-functional shape-memory polymer composites
      • Shape-memory polymer composites
        • Particle-filled shape-memory polymers
        • Fiber-reinforced shape-memory polymers
      • Electro-activated shape-memory polymer composites
        • Shape-memory polymer filled with carbon nanotubes
        • Shape-memory polymer filled with carbon particles
        • Shape-memory polymer filled with electromagnetic fillers
        • Shape-memory polymer filled with hybrid fibers
      • Light-induced shape-memory polymers and their composites
        • Intrinsically light-induced shape-memory polymers
        • Shape-memory polymers induced by radiant thermal energy of light
        • Light-induced shape-memory polymer embedded with an optical fiber
      • Solution-responsive shape-memory polymers
        • Water-driven shape-memory effect
        • Solution driven shape-memory effect
      • Magnetic-responsive shape-memory polymer composites
    • Applications of shape-memory polymers and their composites
      • Deployable structures
        • Hinge
        • Truss and boom
        • Ground-based deployable mirror
        • Reflector
      • Morphing structures
        • Folding wing
        • Variable camber wing
      • Biomedicine and bioinspiration
      • MEMS and NEMS applications
      • Shape-memory polymer textiles and applications
      • Shape-memory polymer foams and applications
      • Automobile
      • Self-healing composite system
      • Other applications
    • Concluding remarks and outlook
      • Concluding remarks
      • Key challenges and possible future directions
    • Acknowledgements
    • References

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