Sage Journals: Discover world-class research

Abstract

Polyurethane (PU)–silica nanocomposites were synthesized by sol–gel reactions between the surface silanol groups of fumed silica and 3-aminopropyltriethoxysilane (APTES) terminated PU with a broad range of silica contents (1–5%) with two different molecular weights of PU. It was found that the silica particles that were incorporated into the polymer chains were well dispersed in the PU matrix and acted as multifunctional cross-links and reinforcing fillers; in addition, the silica particles augmented the initial and rubbery moduli, yield, and break strengths, as well as the glass transition temperature. Moreover, 98–99% shape fixity and shape recovery with minimum cyclic hysteresis were obtained with only 1% silica particle loading.

Keywords

Shape memory polyurethane nanocomposites sol–gel reaction

Get full access to this article

View all access options for this article.

References

Behl

Razzaq

Lendlein

. Multifunctional shape-memory polymers. Adv Mater 2010; 22: 3388–3410.

Kim

. New frontiers of shape memory polymers. Express Polym Lett 2010; 4: 589.

Madbouly

Lendlein

. Shape-memory polymer composites. Adv Polym Sci 2010; 226: 41–95.

Liu

Qin

Mather

. Review of progress in shape-memory polymers. J Matl Chem 2007; 17: 1543–1558.

Ratna

Karger-Kocsis

Recent advances in shape memory polymers and composites: A review. J Mater Sci 2008; 43: 254–269.

Meng

. A brief review of stimulus-active polymers responsive to thermal, light, magnetic, electric, and water/solvent stimuli. J Intel Mater Syst Struct 2010; 21: 859–885.

Knight

Lee

Qin

Mather

. Thermoplastic polyurethanes incorporating polyhedral oligosilsesquioxane (POSS). Biomacromolecules 2008; 9: 2458–2467.

Cao

Jana

. Polymer 2007; 48: 3790–3800.

Liang

Rogres

Malafeew

. Nanoclay-tethered shape memory polyurethane nanocomposites. J Intell Mater Syst Struct 1997; 8: 380–386.

10.

Ohki

Ohako

Iwamoto

. Mechanical and shape memory behavior of composites with shape memory polymer. Composites A 2004; 35: 1065–1073.

11.

Jang

Hartwig

Kim

. Shape memory polyurethanes cross-linked by surface modified silica particles. J Matl Chem 2009; 19: 1166–1172.

12.

Jung

Jeong

Kim

. Organic–inorganic chemical hybrids having shape memory effect. J Matl Chem 2010; 20: 3458–3466.

13.

Hong

Youk

. Two-way shape memory behavior of shape memory polyurethanes with a bias load. Smart Mater Struct 2010; 19: 1–9.

14.

Yang

Chun

Chung

Cho

. Comparison of thermal/mechanical properties and shape memory effect of polyurethane block-copolymers with planar or bent shape of hard segment. Polymer 2003; 44: 3251–3258.

15.

Lafuma

Quéré

. Superhydrophobic states. Nat Mater 2003; 2: 457–460.

16.

Kim

Lee

. Polyurethane having shape memory effects. Polymer 1996; 37: 5781–5793.

17.

Lee

Kim

. Shape memory polyurethanes having crosslinks in soft and hard segments. Smart Mater Struct 2004; 13: 1345–1350.

18.

Gedde

. Polymer Physics. London: Kluwer Academic Publishers, 1999.

19.

Lee

Yoon