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- 2012 (3) (entfernen)
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The surface of a shape memory poly(ester urethane)
(PEU) was either black- or blue-colored to obtain switchable
quick response (QR) codes after laser engraving and thermomechanical
functionalization (programming). The investigation
of dye and functional stability against UVA and hydrolytic
aging (at 23 and 60 °C) gave that contrast decline due to dye
decolorization (in case of UVA aging) or distinct dye diffusion
(in case of hydrolytic aging) finally inhibited the QR code
readability. By contrast, PEU as marked base material could be
adequately fixed and recovered even when the Michelson
contrast in the QR code region was falling in course of aging
below a crucial value of 0.1, whereupon the QR code was no
longer readable. Hence, we concluded that under the given
experimental conditions the decisive parameter for tag
applicability was the surface contrast.
Here we present a suitable tag prototype with phasesegregated
poly(ester urethane) (PEU) as base material for
effectively switching a quick response (QR) code in its surface
from non-readable to readable. In comparison with recently
introduced tags (different geometry) we minimized the
thickness from plaque (2 mm) to foil size (0.5 mm) and reduced
the lateral QR code length from 15 to 5 mm. Subsequent to
surface-dyeing by means of guest diffusion, the QR code was
laser-engraved. The implementation of thermo-mechanical
functionalization via tensile deformation and cooling resulted in
the formation of stable shapes, which exceeded the barrier of
QR code readability at an elongation of 20%. Once
functionalized, tags were switched on demand by heating. As
such the recovery of the PEU was accomplished and the QR
code could again be read out. QR code carriers based on shape
memory polymer can be used in product and brand protection
applications.
The selective compression of quick response (QR) and Data Matrix code carriers based on shape memory polymer (SMP) with a freely configurable steel ball type indenter and adjacent thermo-mechanical shape fixing gave notched, room temperature (23 °C) stable, temporary shapes with non-decipherable codes. The microscopic investigation of cryomicrotome sections unveiled indentation-related shape fixities of about 90%. Independent of the selected two-dimensional code, the triggering of the SM effect resulted in sufficient shape recoveries to restore the code readability so that a maximum number of characters including 122 for a QR code (version 7) and 112 in case of a Data Matrix code (version 12) could be read with a scanning and decoding device. Due to the large number of difficult to copy shapes with on demand releasable information, SMPs may serve as viable information carriers for product and brand protection applications.