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Partially constrained recovery of (meth)acrylate shape-memory polymer networks

Lakhera, Nishant ; Yakacki, Christopher M. ; Nguyen, Thao. D. ; Frick, Carl P.

Journal of applied polymer science, 2012-10, Vol.126 (1), p.72-82 [Periódico revisado por pares]

Hoboken: Wiley Subscription Services, Inc., A Wiley Company

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  • Título:
    Partially constrained recovery of (meth)acrylate shape-memory polymer networks
  • Autor: Lakhera, Nishant ; Yakacki, Christopher M. ; Nguyen, Thao. D. ; Frick, Carl P.
  • Assuntos: Applied sciences ; compression ; Constraining ; Crosslinking ; Density ; Exact sciences and technology ; glass transition ; Materials science ; Networks ; Physicochemistry of polymers ; Polymers ; Polymers and radiations ; Programming ; Properties and characterization ; Shape memory ; stimuli-sensitive polymers ; Strain ; Stresses ; structure-property relations ; thermosets
  • É parte de: Journal of applied polymer science, 2012-10, Vol.126 (1), p.72-82
  • Notas: ark:/67375/WNG-CN954W15-9
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    ObjectType-Article-2
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    content type line 23
  • Descrição: The purpose of this study was to characterize the partial strain recovery of a thermoset shape‐memory polymer under a constraining stress. Three polymer networks were synthesized from tert‐butyl acrylate and poly(ethylene glycol) dimethacrylate (PEGDMA) solutions. The molecular weight and the weight fraction of the PEGDMA crosslinking monomer was altered systematically to maintain a constant glass transition temperature (Tg = 54°C) but tailorable rubbery moduli, which varied by almost an order of magnitude for the three polymer networks (E r′ = 1.8–11.3°MPa). The shape‐recovery behavior of the polymers under a constraining stress was characterized for programming temperature below (20°C) and above (70°C) the Tg. The experiments revealed a peak in the recovered strain for samples programmed at 20°C. Recovered strain scaled linearly with the constraining stress by the rubbery modulus. The work performed by the shape‐memory polymer networks was observed to be primarily a function of constraining stress and crosslinking density, while programming temperature had a relatively mild influence; however, the efficiency of the shape‐memory effect was shown to be a function of constraining stress and programming temperature, but was independent of crosslinking density. Maximum work efficiencies (up to 45%) were observed for programming temperature of 70°C. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012
  • Editor: Hoboken: Wiley Subscription Services, Inc., A Wiley Company
  • Idioma: Inglês
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