STUDY OF THERMOMECHANICAL EFFECTS OF MAIN CHAIN LIQUID CRYSTAL ELASTOMER AS FUNCTION OF CROSSLINKER CONCENTRATION

Irna Farikhah(1), Yusril Yusuf(2),


(1) Department of Physics, Faculty of Mathematics and Natural Sciences-Gadjah Mada University Sekip Utara, BLS 21, Bulaksumur, Yogyakarta 55281, Indonesia
(2) Department of Physics, Faculty of Mathematics and Natural Sciences-IKIP PGRI Semarang Sidodadi Timur 24, Semarang 55125, Indonesia
Corresponding Author

Abstract


STUDY OF THERMOMECHANICAL EFFECTS OF MAIN CHAIN LIQUID CRYSTAL ELASTOMER AS FUNCTION OF CROSSLINKER CONCENTRATION. Thermomechanical effects of dry Main Chain Liquid Crystal Elastomer (MCLCE) with the different concentration of crosslinker 8 %, 12 %, 14% and 16% have been studied. Length of MCLCE monotonically shrinks parallel to the director, while it expands perpendicularly to the director, with a somewhat faster change at nematic isotropic transition phase, Tni. The result of the investigation showed that the value of maximum contraction is greater and faster than maximum expansion.

Keywords


Main Chain Liquid Crystal Elastomers (MCLCE), Thermomechanical effects, Function of crosslinker concentration

Full Text: PDF (Bahasa Indonesia)

DOI: 10.17146/jsmi.2011.12.2.4603
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