Glass microsphere surface coating

Figure 4. A SEM micrograph of the surface of a glass microsphere coated with...

Also investigating surface textiles electrodes, Pylatiuk et al. (2009) compared five different conductive materials three types of silicone rubbers loaded with carbon or other nanoparticles, silver-coated polyamide yams and a flexible thermoplastic elastomer loaded with silver-coated glass microspheres. The results of the test electrodes were compared with those of a standard Ag/AgCl gel electrode. It was found that the silicone mbbers and the coated polyamide yams gave results comparable to the reference gel electrodes. The nanoparticle-loaded silicone mbber gave very favourable results with the ability to be used dry and a signal to noise ratio better than the gel electrode reference. 

A newer and less expensive alternative to the microchannel plate is the microsphere plate (MSP). As illustrated in Figure 3.6, this electron multiplier consists of glass beads with diameters from 20 to 100 pm that are sintered to form a thin plate with a thickness of 0.7 mm. This plate is porous with irregularly shaped channels between the planar faces. The surfaces of the beads are covered with an electron emissive material and the two sides of the plate are coated to make them conductive. The operating principle of this electron multiplier is similar to that of the microchannel plate. A potential difference of between 1.5 and 3.5 kV is applied across the plate, with the output side of the plate at the more positive potential. When particles hit the input side of the microsphere plate, they produce secondary electrons. These electrons are then accelerated by the electric field through the porous plate and collide with other beads. Secondary electron multiplication in the gaps occurs and finally a large number of secondary electrons are emitted from the output side of the plate. 

Elastomeric polyurethane RIM, two-component MDI-based liquid systems available unfilled, glass-filled or mineral/microsphere filled offering large part mouldability, superior impact strength and excellent surface quality and in-mould coating, for agriculture, construction, automotive and special transportation application. 

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