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Polymer coatings, optical waveguide

MAJOR APPLICATIONS Adhesives and binders, coatings, optical waveguides, and blends with other polymers for various apphcations. [Pg.390]

Figure 2 shows a d.c. recorder retracing of a typical set of dry air/saturated vapor cycling responses of the optical waveguide coated with the polymer, poly-epichlorohydrin (PEH) and exposed cyclically to benzene vapors. Aside from the clearly detected electrical signals above the dry air baseline reference, their amplitudes appear to show apparent reversibility over the four exposure cycles indicated in the figure. Also, the rise time and decay of these signals are rather symmetric and indicate a film response time of less than one minute. [Pg.321]

Figure 1. Schematic of the experimental set-up to produce and detect the condensed saturated vapors with the optical waveguide coated with several polymers. Figure 1. Schematic of the experimental set-up to produce and detect the condensed saturated vapors with the optical waveguide coated with several polymers.
Figure 4. Plot of the optical waveguide response for each polymer coating as a function of the vapor pressure of the vapors to which these caotings are exposed. The scale of the ordinate is taken from the absolute heights shown in the bar chart data shown in Figure 3. It is clearly seen that for all these polymeric films their response increases inversely as the vapor pressure for the particular volatile material tested. Figure 4. Plot of the optical waveguide response for each polymer coating as a function of the vapor pressure of the vapors to which these caotings are exposed. The scale of the ordinate is taken from the absolute heights shown in the bar chart data shown in Figure 3. It is clearly seen that for all these polymeric films their response increases inversely as the vapor pressure for the particular volatile material tested.
This study represents the first systemmatic application of the optical waveguide technique to the study of the response of polymer film coatings to condensed vapor molecules. These results indicate that the technique is useful for surveying rapidly potential polymeric films as possible vapor sensor coatings. Moreover, this work has further substantiated that the vapor pressure is an important physical property to be taken into account when employing polymeric films as surface coatings. [Pg.328]

Figure 6. Optical transmittance change at 660 nm as a function of various DMMP concentrations for the optical waveguide surface coated with the PEM polymer film. Figure 6. Optical transmittance change at 660 nm as a function of various DMMP concentrations for the optical waveguide surface coated with the PEM polymer film.
S. Yi-Wei, W. You, Y Abe, Y Matsuura, M. Miyagi, S Sato, M TaniwaM, H Uyama, Cyclic olefin polymer-coated silver hollow glass waveguides for the infrared. Applied Optics, vol.37, no.33, pp.7758-62. 1998. [Pg.24]

See other pages where Polymer coatings, optical waveguide is mentioned: [Pg.415]    [Pg.155]    [Pg.271]    [Pg.658]    [Pg.44]    [Pg.342]    [Pg.321]    [Pg.321]    [Pg.324]    [Pg.324]    [Pg.145]    [Pg.405]    [Pg.405]    [Pg.183]    [Pg.105]    [Pg.83]    [Pg.364]    [Pg.378]    [Pg.308]    [Pg.89]    [Pg.161]    [Pg.263]    [Pg.156]    [Pg.98]    [Pg.117]    [Pg.118]    [Pg.208]    [Pg.267]    [Pg.269]    [Pg.300]    [Pg.309]    [Pg.534]    [Pg.540]    [Pg.1548]    [Pg.103]    [Pg.265]    [Pg.65]    [Pg.850]    [Pg.132]    [Pg.324]   


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Coatings waveguide

Optical coatings

Optical polymers

Polymer coatings

Polymer films coating optical waveguide

Polymer optical waveguides

Polymer waveguides

Waveguide

Waveguide optical

Waveguiding

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