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Phenomena and Problems in Liquid Crystal Elastomers Mark Warner, Cavendish Cambridge. Classical Rubber Locally a polymeric liquid – mobile Make more complex,

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Presentation on theme: "Phenomena and Problems in Liquid Crystal Elastomers Mark Warner, Cavendish Cambridge. Classical Rubber Locally a polymeric liquid – mobile Make more complex,"— Presentation transcript:

1 Phenomena and Problems in Liquid Crystal Elastomers Mark Warner, Cavendish Cambridge. Classical Rubber Locally a polymeric liquid – mobile Make more complex, keep locally fluid More complex solids

2 Nematic fluid cool Nematic polymers have shape anisotropy Crosslink: elastomers respond to molecular shape change monodomain

3 1 l crosslink block of rubber Nematic Rubber anisotropic chains initial shape current shape Change shape with dT

4 Tajbakhsh and Terentjev Cavendish Laboratory Roughly 300% strains. Temperature changed by hot air blower. Monodomain elastomer. Close to real-time movement. 2 6

5 Smectic A cool Smectic liquids Nematic fluid with layered positional order. Layer modulus 10 7 N/m 2. (DJ Cleaver et al, Sheffield) nk Smectic C 2-D elastomer – layers so strong

6 (b) 90ºC (heating) qEqE (a) 25ºC (heating) LELE (c) 130ºC LELE qEqE (Hiraoka and Finkelmann, 2005) layers k n P Spontaneous shears of smectic sheet (also possible with slab)

7 Reduce order by bending some rods - Photo alternative to thermal disruption of order. Absorb photon into dye molecule trans isomercis isomer Azo benzene (straight)(bent) Recovery thermal or stimulated

8 Optical strains. ThermalOptical Can be very fast. Bend. Polydomain response.

9 Birubber strip, H Finkelmann, Freiburg. Non-uniform response

10 Nematic elastomer + green dye guest; laser pulse. Dye photoisomerises top has lower nematic order – differential photo-contraction??? Green laser pulse Palffy-Muhoray * Curvature of photo-beams very rich (2 neutral planes) * Optically write structures in films

11 Most peculiar dynamics – why does it continue curling after eclipsing itself?! What should the photo-stationary shape be? Photo-bending of sheets (Ikeda, Nature, 2003) E

12 Uncurling in the absence of UV. (in light – stimulated decay)

13 Responsive surfaces and thin films light beam localised strains photo-rubber Elongation on illumination

14 Rotate order rather than change magnitude Stretch transverse to director Body accommodates rotating chain distribution. Need shear & stretch. Entropy, energy constant. thereafter hard. inscribed

15 Minimised by (Olmsted): Stretch transverse to director

16 stretch force/area hard Response by rotation pervades all LC elastomer mechanics

17 E 45 o Photo-bend also for polydomains – depends on light polarisation

18 k E Light incident Curl direction ↔ light polarisation (heat a minor effect?)

19 Polydomain photo-elastomer (thin) Incident light Local molecular mobility Domains suffer director rotation away from E Þ large change in natural shape (MW & DC, PRL 06) E

20 Photo contraction l along E non-monotonic with intensity I recovered l, all domains isotropic director rotation gives strain back rotation starts order parameter collapses (“bleaching”) in back-rotated domains back rotation complete NMR? Mechanics? Unpolarised light?

21 SmC* ferro electric Spontaneous shear L ~ 0.4 Actuation based on shear. Ferro-electric films respond to: stress/strain electric field light heat k n c p q L

22 Slab geometry for film Apply shear -2L Reverse polarisation Film bistable??

23 Cholesterics – helically twisted nematics: Elastomers: Separate left from right handed molecules. Change colour on stretching. Lase when pumped – lasing colour changes with stretch... (tuneable laser from an elastic photonic band solid)

24

25 Deformations in practice (Quasi-convexification) Stripes Macroscopic extension Kundler & Finkelmann (crossed polars) Replace gross deformations by microstructure of (soft) strains with lower energy which satisfies constraints in gross sense.

26 Practical geometry – put stripes in where needed for lowest energy: Conti et al (1/4 of strip) (soft) Zubarev, Finkelmann et al Terentjev et al (Depends on strip aspect ratio.)

27 Q0Q0 initially (and finally) z q0q0 Jump away from ; global order S < 0 z n ~Q 0 q Collapse of local order Q ; global order less negative Jump back toward z n Q~0 q~q 0 Detect by NMR?

28 Local order Q 0 rotated away from E ; global S<0 Local and global order = 0

29 Mahadevan et al (Phys. Rev. Letts., 2004) Light intensity I(x) falls with x (absorption length d ) Contraction decreases with x Bending (curling) of beam or sheet thickness rad. curvature w>d : thick w<d : thin film

30 Balance torques – get 2 neutral planes at depths x n Curvature ( 1/R ) non-monotonic in d/w (absorption length/thickness) Optimal d ~ w/3 “thick”“thin” (more examples)

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