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Polypropylene reinforced polymer

Montell Polyolefins Polypropylene HPPP, CPPP, Reinforced Polymers, Aesthetic Polymers, CP, HP, Olefinic Polymer Engineering Polymers, Elastomeric... [Pg.628]

Table 3.5 shows some examples of the property effect ratios for mineral filler-reinforced polypropylene. The effect ratio is the performance of the reinforced polymer divided by the performance of the neat polymer. Properties of low-level glass fibre reinforced polypropylene are given for comparison. [Pg.201]

Other self-reinforced polymers are being developed. For example, PURE is based on highly oriented co-extruded tapes of polypropylene and a consolidation binder. Properties vary according to the form (see Table 6.27) - sheets, tapes or fabrics. [Pg.817]

Mutel, T., Kamal, M. R., and Utracki, L. A., Elongational behavior of short glass fiber reinforced polypropylene melts, Polym. Compos., 5, 289-298 (1984). [Pg.702]

Ljungberg, N., Cavaille, J. Y., and Heux, L. (2006). Nanocomposites of isotactic polypropylene reinforced with rod-like cellulose whiskers. Polymer. 47,6285-6292. [Pg.140]

R. Kamani, M. Krishnan, R. Narayan, Biofiber-reinforced polypropylene composites. Polym. Eng. Sci. 37, 476-483 (1997)... [Pg.175]

Aurrekoetxea J. Sarrionandia M. Mateos M Aretxabaleta L. (2011) Repeated low energy impact behaviour of self-reinforced polypropylene composites. Polymer testing. Vol.30, Issue. 2, pp. 216-221. [Pg.60]

Bokobza, L. Burr, A. Garnaud, G. Perrin, M. Pagnotta, S. (2004) Fibre Reinforcement of Elastomers Nanocomposites Based on Sepiolite and Poly(hydroxyethyl acrylate). Polym. Int. Vol.53, N0.8, pp.1060-1065, ISSN 0959-810 Bonduel, D. Mainil, M. Alexandre, M. Monteverde, F. Dubois, P. (2005) Supvported Coordination Polymerisation A Unique Way to Potent Polyolefin Carbon Nanotube Nanocomposites. Chem. Commun. Vol.l4, No.6, pp.781-783 Bruckner, S. Meille, S. Petraccone, V. Pirozzi, B. (1991) Polymorphism in Isotactic Polypropylene. Prog. Polym. Sci. 16, No.2-3, pp.361-404 Bryning, M. Islam, M Kikkawa, J. Yodh, A. (2005) Very Low Conductivity Threshold in Bulk Isotropic Single-Walled Carbon Nanotube-Epoxy Composites. Ado. Mater. Vol.17, N0.9, pp.1186-1191... [Pg.385]

Cansell, F. Aymonier, C. Loppinet-Serani, A. (2003) Review on Materials Science and Supercritical Fluids. Curr. Opin. Solid State Mater. Sci. Vol.7, No.4-5, pp.331-340 Chang, t. Jensen, L. Kisliuk, A. Pipes, R. Pyrz, R. Sokolov, A. (2005) Microscopic mechanism of reinforcement in single-wall carbon nanotube / polypropylene nanocomposites. Polym. Vol.46, No. 2,pp.439-444 Coleman, J. Cadek, M Blake, R. Nicolosi, V. Ryan, K Belton, C. Fonseca, A. Nagy, J. Gim ko, Y. Blau, W. (2004) High Performance Nanotube-Reinforced Plastics ... [Pg.385]

Yua Yuan, Q., Misra, R. D. K. Impact fracture behaviour of clay-reinforced polypropylene nanocomposites. Polymer Vol. 47 (2006) 4421-4433. [Pg.272]

Ward and his coworkers investigated the interlayer adhesion in self-reinforced PP composites modified with different nano- and micron-sized particles [27-29]. They found that the introduction of a small amount of carbon nanofibers (CNFs) led to improved performance of polypropylene single-polymer composites obtained by hot compaction of oriented CNF/ PP tapes. The peel strength of a CNF/PP woven fabric composite was significantly increased. In addition, the authors pointed out that the drawn CNF/PP tapes showed substantial voiding around the fibers which were closed and sealed by the hot compaction process. As a result, the composite density increased to its initial value [27]. [Pg.513]

Ljungberg N, Cavaille J-Y, Heux L (2006) Nanocomposites of isotactic polypropylene reinforced with rod-like cellulose whiskers. Polymer 47 6285-6292 Lu Y, Weng L, Cao X (2005) Biocomposites of plasticized starch reinforced with cellulose crystallites from cottonseed linter. Macromol Biosci 5 1101-1107 Lu J, Wang T, Drzal LT (2008) Preparation and properties of microfibrillated cellulose polyvinyl alcohol composite materials. Compos Part A 39A 738-746 Magalhaes WLE, Cao X, Lucia LA (2009) Cellulose nanocrystals/cellulose core-in-shell nanocomposite assemblies. Langmuir. doi 10.1021Aa901928j Malainine ME, Mahrouz M, Dufresne A (2005) Thermoplastic nanocomposites based on cellulose microfibrils from Opuntiaficus-indica parenchyma cell. Compos Sci Technol 65 1520-1526 Marchessault RH, Sundararajan PR (1983) Cellulose. In Aspinall GO (ed) The polysaccharides. Academic, New York... [Pg.210]

Karmaker AC, Youngquist JA (1996) Injection molding of polypropylene reinforced with short jute fibers. J Appl Polym Sci 62 1147-1151... [Pg.237]

Lai CY, Sapuan SM, Ahmad M, Yahya N, Dahlan KZHM (2005) Mechanical and electrical properties of coconut coir fiber-reinforced polypropylene composites. Polym Plast Technol Eng 44 619-632... [Pg.396]

Kamani R, Krishnan M, Narayan R (1997) Bio-fibers reinforced polypropylene composites. Polym Eng Sci 37 476-487... [Pg.447]

Bourmaud A, Baley C (2007) Investigations on the recycling of hemp and sisal fiber reinforced polypropylene composites. Polym Degrad Stab 92 1034—1045... [Pg.657]

Chapter 5 summarizes the investigation of lignocellulosic flax fiber-based reinforcement requirements to obtain structural and complex shape polymer composites. This chapter discusses in detail the possibility of forming complex shape structural composites which are highly desirable for advanced applications. Chapter 7 focuses on the structure and properties of cellulose-based starch polymer composites, while Chapter 8 focuses on the spectroscopic analysis of rice husk and wheat gluten husk-based polymer composites using computational chemistry. Chapter 9 summarizes the processing, characterization and properties of oil palm fiber-reinforced polymer composites. In this chapter, the use of oil palm as reinforcement in different polymer matrices such as natural rubber, polypropylene, polyurethane, polyvinyl chloride, polyester, phenol formaldehyde, polystyrene, epoxy and LLDPE is discussed. Chapter 10 also focuses on... [Pg.9]

A. Hassan, A.A. Salema, EN. Ani, and A.A. Bakar, A review on oil palm empty fruit bunch fiber-reinforced polymer composite materials. Polym. Compos. 31(12), 2079-2101 (2010). M. Zaini, M.A. Fuad, Z. Ismail, M.S. Mansor, J. Mustafah, The effect of filler content and size on the mechanical properties of polypropylene/oil palm wood flour composites. Polym. Int. 40(1), 51-55 (1996). [Pg.60]

J Varga, J Karger-Kocsis. Direct evidence of row-nucleated cylindritic crystallization in glass fiber-reinforced polypropylene composites. Polymer Bull 30 105—110, 1993. [Pg.327]

SF Xavier, D Tyagi, A Misra. Influence of injection-molding parameters on morphology and mechanical properties of glass fiber-reinforced polypropylene composites. Polymer Composites 3 88-96, 1982. [Pg.329]

Varga, J. and Karger-Kocsis, J. (1995) Interfacial morphologies in carbon fibre-reinforced polypropylene microcomposites. Polymer, 36, 4877-4881. [Pg.355]

The model has been adopted to investigate the problem of hot spot formation in an inhomogeneous dispersed polymer-polymer material (Figure 2.12). It was examined to see if a hot spot in the bottom (coil-close) region of a HDPE matrix material affects a melting of the 30 vol% polypropylene reinforcement. The fiber diameter has been chosen as 1 mm. The hot spot was initiated by three coil-close particles, whereas the other particles were randomly distributed within the whole sample. [Pg.56]

See other pages where Polypropylene reinforced polymer is mentioned: [Pg.835]    [Pg.307]    [Pg.178]    [Pg.101]    [Pg.358]    [Pg.1509]    [Pg.735]    [Pg.60]    [Pg.432]    [Pg.112]    [Pg.797]    [Pg.306]    [Pg.220]    [Pg.261]    [Pg.201]    [Pg.288]    [Pg.302]    [Pg.524]    [Pg.87]    [Pg.174]    [Pg.572]   
See also in sourсe #XX -- [ Pg.227 ]



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