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High-density polyethylene composites

Wang, M., Hench, L.L. and Bonfield, W. (1998) Bioglass/high density polyethylene composite for soft tissue applications Preparation and evaluation. Journal of Biomedical Materials Research, 42, 577-586. [Pg.361]

Cai, Y Wei, Q. Huang, R Lin, S. Chen, F. Gao, W. Thermal stability, latent heat and flame retardant properties of the thermal energy storage phase change materials based on paraffin/high density polyethylene composites. Renew Energ 34 (2009) 2117-2123. [Pg.1480]

M. Polliinen, M. Suvanto, T. Pakkanen, Cellulose reinforced high density polyethylene composites—Morphology, mechanical and thermal expansion properties. Compos. Sci. Technol. 76, 21-28 (2013)... [Pg.284]

Meyrs E.G. Chahyadi I.S. Gonzalez C. Coberly C.A. Wood flour and polypropylene or high-density polyethylene composites influence of maleated polypropylene concentration and extrusion temperature on properties. In Walcott MP, editor. Wood fihres/polymer composites fundamental concepts, processes, and material options. Madison, USA Forest Product Society, (1993), pp. 49 -56. [Pg.428]

Rusu, R., Sofian, N., and Rusu, D. Mechanical and thermal properties of zinc powder filled high density polyethylene composites. Polymer Testing, 20, 409-417... [Pg.421]

Lu, L, Wu, Z., and Negulescu, Q. 2004. n. Wbod-fiber/high-density-polyethylene composites Compounding process. Journal of Applied Polymer Science 93 2570-2578. [Pg.120]

Zhang, M. Q., Rong, M. Z., Zhang, H. B., and Friedrich, K. 2003. Mechanical properties of low nano-silica filled high density polyethylene composites. [Pg.126]

Yao F, Wu Q, Lei Y, Xu Y et al (2008) Rice straw fibre-reinforced high-density polyethylene composite effect of fibre type and loading. Ind Crops Prod 28 63-72... [Pg.39]

Panthapuiakkai S, Law S, Sain M (2005) Enhancement of process ability of rice husk filled high-density polyethylene composite profiles. J Thermoplastic Compos Mater 18 445 58... [Pg.373]

Han G, Lei Y, Wu Q, Kojima Y, Suzuki S (2008) Bamboo—fiber filled high density polyethylene composites effect of coupling treatment and nanoclay. J Polym Environ 16 123-130... [Pg.396]

Kuboki T, Lee YH, Park CB, Sain M (2009) Mechanical properties and foaming behavior of cellulose fiber rein forced high-density polyethylene composites. Polym Eng Sci 49 ... [Pg.396]

Mukhopadhyay S, Srikanta R (2008) Thermal properties of high density polyethylene Composites with natural fibres coupling agent effect. Polym Degrad Stab 93 2048-2051... [Pg.396]

Panthapulakkal S, Sain M (2007) Agro-residue reinforced high-density polyethylene composites fiber characterization and analysis of composite properties. Compos A 38 1445-1454... [Pg.396]

Martin AR, Manolache S, Mattoso LHC et al (2000) Plasma modification of sisal and high-density polyethylene composite, effect on mechanical properties. In Natural polymers and composites, pp 431-436... [Pg.658]

Lu JZ, Wu Q, Negulescu 11 (2005) Wood-fibCT/high-density-polyethylene composites coupling agent performance. J Appl Polym Sci 96 93-102... [Pg.697]

H. Osman, and M.H. Zakaria, Effects of durian seed flour on processing torque, tensile, thermal and biodegradation properties of polypropylene and high density polyethylene composites. Polym. Plast. Technol. Eng. 51(3), 243-250 (2012). [Pg.61]

N. M. Stark and L. M. Matuana, Surface chemistry and mechanical property changes of wood-flour/high-density-polyethylene composites after accelerated weathering. J. Appl. Polym. Sci. 94, 2263-2273 (2004). [Pg.363]

H. Du, W. Wang, Q. Wang, S. Sui, and Y. Song, Effects of ultraviolet absorbers on the ultraviolet degradation of rice-hull/high-density polyethylene composites. /. Appl. Polym. Sci. 126, 906-915 (2012). [Pg.367]

Fig. 4.1 Cyclic voltammogram showing zinc deposition and de-plating for carbon black (green line) and multiwall carbon nanotube-embedded (orange line) high-density polyethylene composite electrodes, with deposition potential (DP), cross-over potential (COP) and nucleation overpotential (NOP) indicated on diagram inset (Image adapted from [3].)... Fig. 4.1 Cyclic voltammogram showing zinc deposition and de-plating for carbon black (green line) and multiwall carbon nanotube-embedded (orange line) high-density polyethylene composite electrodes, with deposition potential (DP), cross-over potential (COP) and nucleation overpotential (NOP) indicated on diagram inset (Image adapted from [3].)...
Ou R, Zhao H, Sui S, Song Y and Wang Q (2010) Reinforcing effects of Kevlar fiber on the mechanical properties of wood-flour/high-density-polyethylene composites. Compos Part A 41 1272-1278. [Pg.280]

Surface resistivity is one factor that can be controlled by the incorporation of a reinforcing agent or a filler into a polymer formulation. Thus, the incorporation of natural fiber into high-density polyethylene composites decreases the surface resistivity of the composite. Reinforcing agents can also affect the electrical resistance. The incorporation of Kevlar fibers in polyaniline increases the tracking resistance threefold over the value for the base polymer. [Pg.2]

Niak andMishra [13] found that the surface resistivity of natural fiber high-density polyethylene composites decreased with an increase of fiber content of the composite, whereas the volume resistivity increased. [Pg.133]

Niak and Mishra [111] studied the electrical properties of natural fiber high-density polyethylene composites. [Pg.146]

Lu N, Oza S. Thermal stability and thermo-mechanical properties of hemp-high density polyethylene composites effect of two different chemical modifications. Compos Part B 2013 44 (l) 484-490. [Pg.236]

Zhang Q, Rastogi S, Chen D, Lippits D, Lemstra PJ (2006) Low percolation threshold in single-walled carbon nanotube/high density polyethylene composites prepared by melt processing technique. Carbon 44 778-785... [Pg.42]

Tang W, Santare M H and Advaui S G (2003) Melt processing and mechanical property characterization of multi-walled carbon nanotube/high density polyethylene composite films, Carbon 41 2779-2785. [Pg.359]

The decohesion fracture observed in PE-HD/MH1 50 composite prepared without PE-g-MA, was changed to cohesion failure of PE-HD/MDHl 50/PE-g-MA 2 composite with the addition of polymeric coupling agent. This improvement in adhesion was particularly reflected in the mechanical properties, and improvement in both strength and modulus of high-density polyethylene composites containing surface modified by fatty acids magnesium hydroxide and PE-g-MA. [Pg.99]

Tablets. 50% Mica Filled High Density Polyethylene Composites. ... Tablets. 50% Mica Filled High Density Polyethylene Composites. ...
Dey, T.K. andTripathi, M. (2010) Thermal properties of silicon powder filled high-density polyethylene composites. ThermodurrUca Acta, 502, 35-42. [Pg.271]

Stark, N.M. Effect of weathering cycle and manufacturing method on performance of wood Hour and high-density polyethylene composites. J. Appl. Polym. Sci. 100, 3131-3140 (2006)... [Pg.106]

See other pages where High-density polyethylene composites is mentioned: [Pg.442]    [Pg.166]    [Pg.257]    [Pg.339]    [Pg.395]    [Pg.392]    [Pg.12]    [Pg.14]    [Pg.234]    [Pg.99]    [Pg.100]   
See also in sourсe #XX -- [ Pg.28 ]



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