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NATURAL FIBRE

Benabid, F. Couny, F. Knight, J. C. Birks, T. A. Russell, P. S. J., Compact, stable and efficient all fibre gas cells using hollow core photonic crystal fibres, Nature. 2005, 434,... [Pg.93]

Kapany, N. S., High resolution fibre optics using sub micron multiple fibres, Nature 1959, 184, 881 883... [Pg.372]

Fibres, nature Glass Carbon Carbon Carbon... [Pg.816]

Table 6.30 shows the properties of the same thermoplastic (short fibre reinforced polyamide) reinforced with the same level of the three main reinforcement fibres, illustrating the effect of the fibre nature. [Pg.820]

White, T. R. Melting behavior of crystalline polymer fibres. Nature (London) 175, 895 (1955). [Pg.273]

Ryadnov, M. G., and Woolfson, D. N. (2003a). Engineering the morphology of a selfassembling protein fibre. Nature Mat. 2, 329-332. [Pg.111]

Huxley, A. F., and Niedergerke, R. (1954). Structural changes in muscle during contraction Interference microscopy of living muscle fibres. Nature 173, 971-973. [Pg.13]

Neher E, Sakmann B (1976) Single-channel currents recorded from membrane of denervated frog muscle fibres. Nature 260 799-802... [Pg.22]

Sincock A, Seabright M. 1975. Induction of chromosome changes in Chinese hamster cells by exposure to asbestos fibres. Nature 257 56-58. [Pg.330]

Smith, C., Venkataraman, N., Gallagher, M. et ah. Low-loss hollow-core silica/air photonic crystal fibre. Nature (Land), 424, 657, 2003. [Pg.387]

Though textile fibres are classified by many systems, it is only in 1960, the Textile Fibre Products Identification Act (TFPIA) became effective. The classification shown in Table 1.2 is based on the principal origin of the fibre (natural or... [Pg.1]

Smith CM, Venkataraman N, Gallagher MT, Muller D, West JA, Borrelli NF, Allan DC, Koch KW (2003) Low-loss hollow-core silica/air photonic bandgap fibre. Nature 424 657-659... [Pg.71]

Shute CCD, Lewis PR (1965) Cholinesterase-containing pathways of the hindbrain Afferent cerebellar and centrifugal cochlear fibres. Nature. 205, 242-246. [Pg.359]

Huxley, A L., Sc Huxley, A F. (1939). Action potentials recorded from inside a nerve fibre. Nature, 144, 710—711. [Pg.421]

The starting point in the textile supply chain is the raw material preparation. Textile fibres are obtained from two main sources natural (cellulose or animal) fibres or synthetic fibres. Natural cellulosic fibres include conventional and organic cottons, rayon, linen, hemp, jute, ramie and sisal. Cotton is used to produce 40% of world textile products (Saicheua et al., 2012). The major environmental concern in cellulosic fibre production, especially for cotton fibre, is the chemical fertilizers and pesticides used during cultivation. The second concern is the high level of water consumption (Dave and Aspegren, 2010 Muthu, 2014). Cotton is one of the most popular natural fibres used in the world. Three percent of the world s cultivated land is used for cotton production and 16% of the world s insecticides are used on this crop alone (Saicheua et al., 2012 Muthu, 2014). Moreover, the use of chemical fertilizers, pesticides, machinery and electricity causes some human health and environmental problems. Also cotton growing requires 7—29 tonnes of water per kg of raw cotton fibres (KaUiala and Nousiainen, 1999). Other types of cellulosic fibres are hemp and flax, which can be considered to be the most significant sustainable fibres in the non cotton natural fibre sector (Werf, 2004 Muthu, 2014). [Pg.128]

Meier, H., Buchs, L., Buchela, AJ. Homewood, T. (1981) (l-3)-p-D-Glucan (Callose) is a Probable Intermediate in Biosynthesis of Cellulose of Cotton Fibres , Nature (Lond), 289, 821-2... [Pg.330]

Similarities between FASAL and ARBOFORM can be found. The fibre components of FASAL are wood particles, rice husks or coconut fibres. Natural starch, such as for example from maize, and partly proteins are used as binders. Resins or pigments from natural raw materials are used as additives. Processing is done by processing techniques used in the plastics industry, e.g. by extrusion. The application is comparable to the one of injection moulded ARBOFORM . ... [Pg.329]

Flexibility in operation because it is designed for more than one type of additive component it can easily be converted to process fillers or fibres or chopped scrap foam. Its range of application includes continuous reinforcing fibres, natural fillers (mineral or organic), pulverised plastics, etc. [Pg.151]

Dalton, A.B.et al. Super-tough carbon-nanotube fibres. Nature 423, 703 (2003). [Pg.596]

Johnson JW, Marjoram JR, Rose PG, Stress graphitization of polyacrylonitrile based carbon fibre. Nature, 221, 357-358, 25 Jan 1969. [Pg.118]

Jackson PW, Marjoram JR, Recrystallization of nickel coated carbon fibres. Nature, 218, 83 4, 6 Apr 1968. [Pg.119]

Badami DV, Joiner JC, Jones GA, Microstmeture of high strength, high modulus carbon fibres. Nature, 215, 386, 22 Jul 1967. [Pg.119]

Watt W, Johnson W, Mechanism of the oxidation of polyacrylonitrile fibres, Nature, 257, 210-212, 1975. [Pg.266]

Keywords Adhesion Bonding agent Interface Isora fibre Natural fibre Polymers Reinforcement... [Pg.291]

See other pages where NATURAL FIBRE is mentioned: [Pg.271]    [Pg.72]    [Pg.472]    [Pg.798]    [Pg.819]    [Pg.820]    [Pg.823]    [Pg.75]    [Pg.180]    [Pg.2122]    [Pg.8]    [Pg.139]    [Pg.250]    [Pg.252]    [Pg.2]    [Pg.305]   
See also in sourсe #XX -- [ Pg.39 , Pg.50 , Pg.147 ]

See also in sourсe #XX -- [ Pg.98 ]

See also in sourсe #XX -- [ Pg.47 , Pg.132 ]



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