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Applications Architectural fabric

Ropes, cables, coated fabrics for inflatables, architectural fabrics, and for ballistic protection fabrics. Ship to shore mooring lines are made of aramid fibers because of its resistance to saltwater corrosion. Vests made of Kevlar 29 are used by law enforcement agencies in many countries. Later we discuss this application in some detail. [Pg.103]

An important application for aqueous dispersions of PTFE is the architectural fabric market. This product consists of fiberglass fabric coated with special forms of the aqueous dispersion. The resulting material is used as roofs in a wide variety of buildings, especially where a large area must be covered with minimum support. Notable examples of such use are the Pontiac Silver Dome, the airport terminal in Jeddah, Saudi Arabia (where 105 acres are enclosed), and many college and university stadiums or union buildings. [Pg.408]

The applications for PTFE-coated glass cloth are numerous. As an architectural fabric, the translucent fabric allows light to be transmitted. This affords protection from the environment while keeping a level of indirect sunlight inside the structure. The flexible coated fabric is unaffected by UV light and the PTFE provides resistance to acid rain and other environmental conditions. The surface is, in effect, self-cleaning because the nonstick properties allow rain to wash off deposits. Nonflammability and stain resistance of the PTFE fabric is also advantageous. [Pg.615]

Ilyas M, Mahgoub 1 (2006) Smart dust sensor network applications, architecture, and design. Boca Raton CRC/Taylor Francis Tsai Y H (2007) Fabrication and analysis of the ascorbic acid biosensor based on the ruthenium oxide sensing electrode. Master thesis. Graduate School of Optoelectronics, National YunUn Institute of Technology, Yunlin, Taiwan... [Pg.379]

See also Supramolecular architectures Supramolecular assemblies anion binding in, 24 43-47 binding neutral molecules in, 24 47-49 bottom-up nanoscale fabrication in, 24 61 cation binding in, 24 40-43 current and anticipated applications for, 24 52... [Pg.910]

This chapter considers the fabrication of oxide semiconductor photoanode materials possessing tubular-form geometries and their application to water photoelectrolysis due to their demonstrated excellent photo-conversion efficiencies particular emphasis is given in this chapter to highly-ordered Ti02 nanotube arrays made by anodic oxidation of titanium in fluoride based electrolytes. Since photoconversion efficiencies are intricately tied to surface area and architectural features, the ability to fabricate nanotube arrays of different pore size, length, wall thickness, and composition are considered, with fabrication and crystallization variables discussed in relationship to a nanotube-array growth model. [Pg.259]

As noted earlier, CVl is nsed primarily to form ceramic-fiber-reinforced ceramic matrix composites. The most common of these combinations is SiC fiber/SiC matrix composites. One commercially available product has a two-dimensional 0/90 layup of plain weave fabric and fiber volume fraction of about 40%. This same composite can be fabricated with unidirectional fibers and with 45° architectures. The most commonly used SiC fiber for the preforms is Nicalon , the mechanical properties for which were provided earlier in Section 5.4.2.7. A number of other carbide and nitride fibers are also available, including Si3N4, BN, and TiC. Preform geometries can be tailored to the application in order to maximize strength and toughness in the direction of maximnm stresses. The reactions used to form the matrix are similar to those used in CVD processes (cf. Section 7.2.4) and those described previously in Eq. (3.105). [Pg.803]

It is customary, mainly owing to fabrication needs, that for biological applications chip-like systems with two-layer construction are used, thus being in-plane. Mixers used for the same purposes have to adjust to this fact. Since multi-lamination typically needs several layers to achieve the proper feeding pathways, other mixers with simpler designs such as the electrokinetic instability mixer need to be applied [25], In contrast, chemical applications, where the mixer is only associated with part of the plant and not integrated in a small, flat device, do not pose such preferences indeed, multi-layer microfabrication architectures have been used. [Pg.6]


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See also in sourсe #XX -- [ Pg.6 ]




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Applications architecture

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