dc.relation.references | Bell, T., (2017) Learn about magnesium, , https://www.thebalance.com/metal-profile-magnesium-2340142, Accessed: 20-Jan-2017; https://minerals.usgs.gov/, USGS Mineral Resources Program. [Online]. [Accessed: 20-Jan-2017]; http://www.intlmag.org/, International Magnesium Association. [Online]. [Accessed: 20-Jan-2017]; Polmear, I.J., (1995) Light alloys: Metallurgy of the light metals, Third, , Londres: J. Wiley & Sons; Kainer, K.U., (2000) Magnesium alloys and technology, , Weinheim: WILEY-VCH Verlag GmbH; Shaw, B.A., Corrosion resistance of magnesium alloys (2003) ASM Handb., 13, pp. 692-696; Peloubet, J.A., (2012) Machining magnesium, Magnesium Technology Centre, , Swinton, Manchester; http://www.chinamagnesiumcorporation.com/our-business/the-pidgeon-process, China Magnesium Corporation, The Pidgeon Process, 2011. [Online]. [Accessed: 20-Jan-2017]; Mihriban, M.O., Pekgüleryüz, O., Kainer, K.U., Kaya, A.A., (2013) Fundamentals of magnesium alloy metallurgy; Abdel-aal, H.K., Prospects for the role of magnesium in solar-hydrogen energy-system (2014) Science Direct, 40 (3), pp. 1408-1413; Wilkomirsky, I., (2009) Metalurgia extractiva de metales no ferrosos; (2003) Subdirección de Planeación Minera. Mercado de los insumos minerales para la producción de fertilizantes, , www.upme.gov.co/mineria/EstudiosYAnalisisSectoriales/MineralesFertilizantesColombia.pdf, Accessed: 20-Jan-2017; http://vitalsigns.worldwatch.org/, Vital Signs Online. [Online]. [Accessed: 20-Jan-2017]; Monteiro, W.A., Buso, S.J., Da, L.V., Application of magnesium alloys in transport (2012) New Features on Magnesium Alloys, , InTech; Vormann, J., Magnesium: Nutrition and metabolism (2003) Mol. Aspects Med., 24 (1-3), pp. 27-37; Homayun, B., Afshar, A., Microstructure, mechanical properties, corrosion behavior and cytotoxicity of Mg-Zn-Al-Ca alloys as biodegradable materials (2014) J. Alloys Compd., 607, pp. 1-10; Jang, Y., Tan, Z., Jurey, C., Collins, B., Badve, A., Dong, Z., Park, C., Yun, Y., Systematic understanding of corrosion behavior of plasma electrolytic oxidation treated AZ31 magnesium alloy using a mouse model of subcutaneous implant (2014) Mater. Sci. Eng. C. Mater. Biol. Appl., 45, pp. 45-55; Song, G., Control of biodegradation of biocompatable magnesium alloys (2007) Corros. Sci., 49 (4), pp. 1696-1701; Luthringer, B.J.C., Feyerabend, F., Willumeit-römer, R., (2014) Magnesium-based implants: A mini-review, Magnesium Research, 27 (4), pp. 142-154; Shimizu, Y., Yamamoto, A., Mukai, T., Shirai, Y., Kano, M., Kudo, T., Kanetaka, H., Kikuchi, M., Medical application of magnesium and its alloys as degradable biomaterials (2009) Interface Oral Heal. Sci., pp. 318-320; Brown, B.K., (2014) Wheelchairs & Assistive Devices | CURRENT Diagnosis & Treatment: Physical Medicine & Rehabilitation | AccessMedicine | McGraw-Hill Medical, , https://accessmedicine.mhmedical.com/content.aspx?bookid=1180§ionid=70383529, Accessed: 15-Sep-2017; http://intlmag.site-ym.com/?page=app_electronic_ima, Electronic Applications - International Magnesium Association. [Online]. [Accessed: 20-Jan-2017]; http://www.intlmag.org/page/mg_applications_ima, Magnesium applications - International Magnesium Association. [Online]. [Accessed: 20-Jan-2017]; http://www.cnrcop.es/gc/iniciativas-no-gubernamentales/mejores-tecnicas-disponibles-mtd-y-mejores-practicas-ambientales-mpa/mejores-tecnicas-disponibles-mtd-y-mejores-practicas-ambientales-mpa/procesos-termicos-de-la-industria-metalurgica-no-mencionados-e, CNR COP, Producción de magnesio. [en línea]. [consultado en: 11-Sep-2017]; Rauch, S., Rauch fertigungstechnik: Low-pressure casting Al | Mg, , http://www.rauch-ft.com/en/non-ferrous-metals/low-pressure-casting-al-mg/, Accessed: 11-Sep-2017; O’Donnel, R.L., Advanced thixotropic metallurgy, a revolution in casting technology (2005) Die Cast. Eng., 49 (1), pp. 50-54; Meridian Lightweight Technologies: Magnesium automotive solutions, , http://www.meridian-mag.com/, Accessed: 20-Jan-2017; Talha, M., Behera, C.K., Sinha, O.P., A review on nickel-free nitrogen containing austenitic stainless steels for biomedical applications (2013) Mater. Sci. Eng. C, 33 (7), pp. 3563-3575; Zhu, Y., Yang, K., Cheng, R., Xiang, Y., Yuan, T., Cheng, Y., Sarmento, B., Cui, W., The current status of biodegradable stent to treat benign luminal disease (2017) Mater. Today, , May; Tan, L., Yu, X., Wan, P., Yang, K., Biodegradable materials for bone repairs: A review (2013) J. Mater. Sci. Technol., 29 (6), pp. 503-513; Liu, C.L., Wang, Y.J., Zeng, R.C., Zhang, X.M., Huang, W.J., Chu, P.K., In vitro corrosion degradation behaviour of Mg-Ca alloy in the presence of albumin (2010) Corros. Sci., 52 (10), pp. 3341-3347; Witte, F., Fischer, J., Nellesen, J., Crostack, H.-A., Kaese, V., Pisch, A., Beckmann, F., Windhagen, H., In vitro and in vivo corrosion measurements of magnesium alloys (2006) Biomaterials, 27 (7), pp. 1013-1018; Abidin, N.I.Z., Da Forno, A., Bestetti, M., Martin, D., Beer, A., Atrens, A., Evaluation of coatings for Mg alloys for biomedical applications (2014) Advanced Engineering Materials, 17 (1), pp. 58-67; Hussein, R.O., Nie, X., Northwood, D.O., An investigation of ceramic coating growth mechanisms in plasma electrolytic oxidation (PEO) processing (2013) Electrochim. Acta, 112, pp. 111-119; Ghasemi, A., Raja, V.S., Blawert, C., Dietzel, W., Kainer, K.U., The role of anions in the formation and corrosion resistance of the plasma electrolytic oxidation coatings (2010) Surf. Coatings Technol., 204 (9-10), pp. 1469-1478; Peibo, S., Xiaohong, W., Zhaohua, J., Plasma electrolytic oxidation of a low friction casting on ZK60 magnesium alloy (2008) Mater. Lett., 62 (17-18), pp. 3124-3126; Pezzato, L., Brunelli, K., Gross, S., Magrini, M., Dabalà, M., Effect of process parameters of plasma electrolytic oxidation on microstructure and corrosion properties of magnesium alloys (2014) J. Appl. Electrochem., 44 (7), pp. 867-879; Stojadinović, S., Vasilić, R., Petković, M., Kasalica, B., Belča, I., Žekić, A., Zeković, L., Characterization of the plasma electrolytic oxidation of titanium in sodium metasilicate (2013) Appl. Surf. Sci., 265, pp. 226-233; Mori, Y., Koshi, A., Liao, J., Asoh, H., Ono, S., Characteristics and corrosion resistance of plasma electrolytic oxidation coatings on AZ31B Mg alloy formed in phosphate - Silicate mixture electrolytes (2014) Corros. Sci., 88, pp. 254-262; Liu, Y., Yang, F., Zhang, Z., Zuo, G., Plasma electrolytic oxidation of AZ91D magnesium alloy in biosafety electrolyte for the surgical implant purpose, Russ (2013) J. Electrochem., 49 (10), pp. 987-993; Aliasghari, S., Skeldon, P., Thompson, G.E., Plasma electrolytic oxidation of titanium in a phosphate/silicate electrolyte and tribological performance of the coatings (2014) Appl. Surf. Sci., 316, pp. 463-476; Hornberger, H., Virtanen, S., Boccaccini, A.R., Biomedical coatings on magnesium alloys - a review (2012) Acta Biomater., 8 (7), pp. 2442-2455; Dong, H., (2010) Surface engineering of light alloys ight alloys, , CRC Press; Carter, V.E., (1977) Metallic coatings for corrosion control, First, , London, Butterworth & Co; Mallory, G.O., Hajdu, J.B., (1990) Electroless plating -fundamentals and applications, , William Andrew Publishing/Noyes; Correa, E., Zuleta, A.A., Guerra, L., Gómez, M.A., Castaño, J.G., Echeverría, F., Liu, H., Thompson, G.E., Coating development during electroless Ni-B plating on magnesium and AZ91D alloy (2013) Surf. Coatings Technol., 232, pp. 784-794; Zuleta, A.A., Correa, E., Sepúlveda, M., Guerra, L., Castaño, J.G., Echeverría, F., Skeldon, P., Thompson, G.E., Effect of NH4HF2 on deposition of alkaline electroless Ni-P coatings as a chromium-free pre-treatment for magnesium (2012) Corros. Sci., 55, pp. 194-200; Calderón, J.A., Jiménez, P.J., Zuleta, A.A., Improvement of the erosion-corrosion resistance of magnesium by electroless Ni-P/Ni(OH)2-ceramic nanoparticle composite coatings Surf. Coatings; Correa, E., Zuleta, A.A., Guerra, L., Gómez, M.A., Castaño, J.G., Echeverría, F., Liu, H., Thompson, G.E., (2013) Tribological behavior of electroless Ni-B coatings on magnesium and AZ91D alloy, Wear, 305 (1-2), pp. 115-123; Udhayakumar, G., Muthukumarasamy, N., Velauthapillai, D., Santhosh, S.B., Asokan, V., Magnesium incorporated hydroxyapatite nanoparticles: Preparation, characterization, arvicidal activity (2016) Arab. J. Chem., , Jun | spa |