Transportation, textile

Applications of Fiexible Urethane Foams. Cushioning materials are the major applicatioii of flexible urethane foams. In 1980, the worldwide consumption of urethane foams was as follows (48) furniture and mattress applications, 37% and automotive applications, 18%. In addition to these applications, a wide variety of additional applications have been reported, including transportation, textiles, packaging, appliances, household materials, medical supplies, sound absorbents, sporting goods, cosmetics, agricultural applications such as artificial soil, and toys. 

Fire protection requirements exist in the fields of E E engineering, the construction industry, transportation, textiles and upholstery for furniture. More than 40% of FRs are utilised by the E E sector and cables, especially for consumer electronics, business machines, household appliances and industrial applications. 

Nevertheless, due to specific textile properties such as moisture absorption and transport, textiles can be also an active compound of a sensor. Moreover, the choice of a textile can be influenced by other requirements, such as durability of the material or its tactile characteristics. Beyond that, conductive textiles are a good candidate for implementation of sensor electrodes. 

Temperature-sensing yarn these are created by encapsulating thermistors (0.50 mm x 0.80 mm x 0.80 mm) in yams. Application for these yams will in medicine and health care, personal protection equipment and transport textiles. 

The major applications for flexible slab-stock polyurethane foams are furniture cushioning, both seating and backs seating in public transportation textile backing carpet backing for tufted carpeting and home carpet underlay. A considerable amount of flexible foam is used in packaging, particularly in semipermanent containment of instruments and tools. 

The performance of a textile fabric is characterized by terms such as strength, hand, drape, flexibiUty, moisture transport, and wrinkle resistance. Although the interactions among fibers in a fabric array are complex, its properties reflect in part the inherent properties of the fiber as well as how the fibers are assembled. 

Glycol monoether CAS n R Agriculture Chemical Eoo Cleaning Textile Transport... 

Transportation. High performance fibers and high technology textile products have many appHcations ia the transportation area. Composites are increasingly used as stmctural materials ia aircraft components such as horizontal stabilizers, fins, landing gear doors, fan blades, and nose spia cones. 

RCF is sold in a variety of forms, such as loose fiber, blanket, boards, modules, cloth, cements, putties, paper, coatings, felt, vacuum-formed shapes, rope, braid, tape, and textiles. The products are principally used for industrial appHcations as insulation in furnaces, heaters, kiln linings, furnace doors, metal launders, tank car insulation, and other uses up to 1400°C. RCF-consuming industries include ferrous and nonferrous metals, petrochemical, ceramic, glass, chemical, fertiH2er, transportation, constmction, and power generation/incineration. Some newer uses include commercial fire protection and appHcations in aerospace, eg, heat shields and automotive, eg, catalytic converters, metal reinforcement, heat shields, brake pads, and airbags. 

Static electrification may not be a property of the basic stmcture, but of a new surface formed by a monomolecular layer of water (82). All textile fibers at a relative humidity, at which a continuous monomolecular layer is formed, actually do have the same charge density. This is attributed to the absence of ionic transport which caimot occur in a monomolecular layer. At higher moisture levels than required to form a monomolecular layer, ionic conductivity can occur because of excess water molecules and by hydration of the ions. At very low moisture-regain levels, all materials acquire the same charge (83). 

Transportation of the Textile Material with No Mechanical Movement of the Liquor. Probably the oldest example of dyeing in which the textile alone moves is the ancient box-type skein dye machine in which skeins of yam are hung on wooden pegs with about three-fourths of the skein submerged in the dye Hquor. To prevent stick marks and unlevelness, the sticks are turned by hand at frequent intervals. 

Transport gases in specially designed trolleys and use eye protection, stout gloves (preferably textile or leather) and protective footwear. 

Besides its biological significance, the silkworm has economic value. Silk has been a major natural fiber used in textile production for millennia. By utilizing CBP, coloration of a natural fiber by transport of a natural pigment based on molecular genetic engineering has been achieved (Sakudoh et al. 2007). Determination of other genes for cocoon color may lead to the ability to produce custom-colored silks, which may have an impact on the textile industry. 

Chemical textile finishing, 24 622 Chemical thermodynamics, of gas carburizing, 16 201-203 Chemical Transportation Emergency Center (CHEMTREC), 25 343 Chemical treatment of magnesium, 15 374 of spent nuclear fuel, 25 854 Chemical uses, for hydrogen peroxide,... 

---