Fiber graphitization

Graphite felt Graphite fiber Graphite fibers... [Pg.453]

Filled Resins. EiEers such as glass fibers, graphite, asbestos, or powered metals are compounded into all three types of PTEE. Compounding is achieved by intimate mixing. Coagulation of the polymer with a filler produces a filled fine powder. [Pg.350]

One typical example of carbon/carbon composite plates is that made by Oak Ridge National Laboratory (ORNL) in the United States [12]. The composite preform was fabricafed by a slurry-molding process from fhe mixed slurry befween short carbon fibers (graphite fibers were also added in some sample plates) and fhe phenolic resin. The mass rafio between fiber reinforcement and phenolic matrix is 4 3. The phenolic matrix improves the mechanical properties and dimensional stability of the plate. A subsequent vacuum molding process was utilized to fabricate composite plates and fluid fields with relatively high resolution (Figure 5.3, [11]). [Pg.317]

Adams, D.F. and Zimmerman, R.S. (1986). Static and impact performance of polyethylene fiber/graphite fiber hybrid composites. Allied Fibers, Petersberg, VA. [Pg.228]

Hardness, creep resistance, dimensional stability, and the coefficient of thermal expansion, can be improved by reinforcing materials or fillers, i.e., (micro) glass spheres, glass fibers, graphite, aluminum powder, talc, chalk, silicates, and carbonates. [Pg.84]

Inorganic membranes Glass hollow fiber Glass hollow fiber Graphite, oxidized Schott A Gen. Westinchouse (Union Carbide Comp.) SO 98 80 120 41 0.5 0.5 ... [Pg.637]

Polymer composites consisting of polymers reinforced with various additives such as carbon fibers, graphite fibers, glass fibers, or Kevlar fibers and carbon black are increasingly being used in... [Pg.177]

Glass hollow fiber Glass hoi low fiber Graphite, oxidized... [Pg.637]

Filled compounds of PTFE are produced from all three forms of using fillers, such as glass fiber, graphite, metal powder, carbon fiber, and othersJ ... [Pg.1035]

Table 4 compares the mechanical properties of various organic fibers, graphite/carbon fibers, ceramic fibers, and glass fibers, and lists commercially important applications. One major application of organic fibers, such as Spectra and aramid fibers, is in ballistic In contrast, graphite, ceramic fibers, and glass fibers are primarily used in structural applications. One of the reasons that organic fibers find little... [Pg.3035]

Typical fillers glass fiber, carbon fiber, aramid, antimony trioxide, zinc borate, stainless steel fiber, graphite, nickel coated graphite, aluminum flakes, metallized glass... [Pg.629]

Typical fillers carbon fiber, glass fiber, graphite, fluorocarbon, PTFE... [Pg.633]

Typical fillers carbon fiber, glass fiber, graphite lubricant for wear resistant applications molybdenum sulfide, PTFE. antimony trioxide, barium titanate, clay, silica, aluminum nitride, smectite... [Pg.656]

Typical fillers calcium carbonate, calcium sulfate, silica, organic fibers, graphite, mica, bentonites, sand, aluminum hydroxide, sepiolite, rubber particles... [Pg.676]

Polarography on carbon fibers, graphite powder, polyester resin, and glass tubes SCE 265... [Pg.274]

The prevailing view on the role of graphite particles is that graphite formation competes with diamond formation and is to be avoided, However, enhancement of diamond nucleation on graphite powder, graphite fiber,graphite disk,l l and graphite has been... [Pg.72]

Polytetrafluoroethylene has a somewhat higher coefficient of expansion than other plastics. This differential expansion can result in leaking of joints when PTFE is combined with other materials. Addition of fillers such as glass, fiber, graphite, bronze, and molybdenum disulfide alters the coefficient of expansion of polytetrafluoroethylene compounds (Table 3.36). A compound containing 25% filler has a coefficient of expansion about half that of the unmodified resin. [Pg.51]

Wood powder, cellulose, inorganic (glass, carbon) and organic (viscous, cotton, polyester, polyacrylontrile (PAN), PA) fibers, graphite... [Pg.43]

Organic fibers (PA, PAN), glass fibers, graphite, coke, lamellar aluminum, asbestos, kaolin, vermiculite, mica, talc. [Pg.43]

There are a range of conductive polymers on the market that are based on metal fillers such as aluminum flake, brass fibers, stainless steel fibers, graphite-coated fibers, and metal-coated graphite fibers. However, the most cost effective conductive filler is carbon black. Mention should also be made of... [Pg.565]