Informador Técnico
ISSN: 2256-5035 (Electrónico)
ISSN: 0122-056X (Impreso)
Formato: Electrónico / Acceso Abierto
Frecuencia: Números Semestrales
Revisión por Pares: Doble Ciego
Acha, B.A. REBOREDO, M.M. and MARCOVICH, N.E. Creep and dynamic mechanical behavior of PP–jute composites: effect of the interfacial adhesion. En: Composites Part A: Applied Science and Manufacturing. Vol. 38 (2007); pp.1507-1516.
https://doi.org/10.1016/j.compositesa.2007.01.003
Alves, C. FERRAO, P.M.C. SILVA, A.J. REIS, L.G. FREITAS, M. RODRIGUES, L.B. and ALVES, D.E. Ecodesign of automotive components making use of natural jute fiber composites. En: Journal of Cleaner Production. Vol. 18 (2010); pp. 313-327.
https://doi.org/10.1016/j.jclepro.2009.10.022
ANNA, L.M.; ELOISA,E.C.; GARCÍA, G.B.V. and F. V Z. Influence of recycling rate increase of aseptic carton for lo LOPES, C.M.A. and FELISBERTI, M.I. Composite of low-density polyethylene and aluminum obtained from the recycling of postconsumer aseptic packaging. En: Journal of Applied Polymeric Science. Vol. 101, 2006; p.3183-3191ng-life milk on GWP reduction. Resour, Conserv and Recycl. Vol. 52 (2007); pp. 678-689.
Atilla, M.; Ayse Selek, M.; Metin G. and Muzaffer B. Manufacturing low density boards from waste cardboards-containing aluminium. En: Materials and Design. Vol. 28 (2007); p 2215-2217
https://doi.org/10.1016/j.matdes.2006.06.014
Bledzki, A.K. and Faruk, O. Creep and impact properties of wood fibre-polypropylene composites: influence of temperature and moisture content. En: Composites Science and Technology. Vol. 64 (2004); pp. 693-700.
https://doi.org/10.1016/S0266-3538(03)00291-4
Cerqueira, M. Placas e Telhas produzidas a partir de Polietileno/Alumínio presentes nas embalagens Tetra Pak. Coletânea de Artigos Técnicos, 2003.
CERQUEIRA, M.H. and AGNELLI, J.A.M. Processing of the composite LDPE/Al from carton packages and its modifications with wood fibers. Society of Plastics Engineers – Global Plastics Environmental Conference, GPEC Environmental Innovation: Plastics Recycling and Sustainability. 2007. pp.566-609.
CORBIERE-NICOLLIER, T. B., GFELLER LABAN, L., LUNDQUIST, Y., LETERRIER, Y., MANSON J. A. E., and JOLLIET, O. Life cycle assessment of biofibres replacing glass fibres as reinforcement in plastics. Resources, Conservation and Recycling 33: 267:287. 2001.
Hidalgo, M.A. Manufacturing rigid board by packaging waste containing aluminum and polyethylene. En: Journal of Scientific and Industrial Research. Vol. 70. No. 3 (2011), pp. 232-234.
HIDALGO, M.A.; MOYA, J.C.; BAENA, E. Processing of LDPE/AL composite from recycled carton packages and evolution of mechanical properties. Proc GPEC SPE's 2010-Global Pastics Environmental Conference (Orlando-USA). 2010.
Hidalgo, M.A.; Muñoz, M.F. and Quintana, K. Mechanical behavior of polyethylene aluminum composite reinforced with continuous agro fique fibers. En: Revista Latinoamericana de Metalurgia y Materiales. Vol. 31 No. 2 (2011); pp.187-194.
Hidalgo, M.A.; Muñoz, M.F. and Quintana, F. Mechanical analysis of polyethylene aluminum composite reinforced with short fique fibers available in two-dimensional arrangement. En: Revista Latinoamericana de Metalurgia y Materiales. Vol. 32 No. 1 (2012); pp. 89-95.
Hidalgo, M.A.; Muñoz, M.F.; Mina, J. and Oswald, T. Study of the interfacial properties of fique fiber reinforced polyethylene aluminium. Annual Technical Conference–AN-TEC. En: Conference Proceedings. Vol. 1 (2012); pp. 575-580.
Hidalgo-Salazar, M.A.; Mina, J. H. and Herrera, F. The effect of interfacial adhesion on the creep behaviour of LDPE-Al-Fique composite materials. En: Composites Part B: Engineering. Vol. 55 (2013); p. 345-351.
https://doi.org/10.1016/j.compositesb.2013.06.032
Houshya, S. SHANKS, R.A. and HODZIC, A. Tensile creep behaviour of polypropylene fibre reinforced polypropylene composites. En: Polymer Testing. Vol. 24 (2005); pp. 257-264.
https://doi.org/10.1016/j.polymertesting.2004.07.003
KORKMAZ, J.; YANIK, M.; BREBU, C.; VASILE. Pyrolysis of the Tetra Pak. En: Waste Management. Vol. 29. No. 11 (2009); pp. 2836-2841.
Marcovich, N.E. and Villar, M.A. Thermal and mechanical characterization of linear low density polyethylene/woodflour composites. En: Journal of Applied Polymer Science. Vol. 90 (2003); pp. 2775-2784.
https://doi.org/10.1002/app.12934
NEVES, F.L. Reciclagem de embalagens cartonadas Tetra Pak. O Papel fev. 1999. pp. 38-45.
Neves, F.L. and Zuben, F.J. Recycling of aluminum and polyethylene from Tetra Pak carton packages as plastic composite. Proc GPEC 2003- Global Pastics Environm Concil–fev (Detroit – USA), 2003. p 371-378.
Park, B. and Balatinecz, J. Short term flexural creep behavior of wood-fiber/polypropylene composites". En: Polymer Composites. Vol. 19 (1998); pp. 377-382.
https://doi.org/10.1002/pc.10111
SCHMIDT, W.P. and BAYER, H. M. Life Cycle Study on a Natural Fibre Reinforced Component. SAE Technical Paper Series 982195, presented at Total Life Cycle Conference and Exposition Graz, Austria, December 1-3, 1998.
Valadez, A.; Cervantes, J.M.; Olayo, R. and Herrera, P. Chemical modification of henequén fibers with an organosilane coupling agent. Composites: Part B. 30 (1999); pp. 321-331.
https://doi.org/10.1016/S1359-8368(98)00055-9
Wotzel, K., Wirth, R. and Flake, M. Life cycle studies on hemp fibre reinforced components and ABS for automotive parts. Die AngewandteMakromolekulareChemie 272:121-127. 1999a.
https://doi.org/10.1002/(SICI)1522-9505(19991201)272:1<121::AID-APMC121>3.0.CO;2-T
Xu, Y. WU, Q. LEI, Y. and YAO, F. Creep behavior of bagasse fiber reinforced polymer composites.En: Bioresource Technology. Vol. 101 (2010); pp. 3280-3286.