Osorio W.R., eung N. C, Spinell J.E., Cruz K.S., Goulart P.R. and Garcia A., "Thermally and Chemically Induced Microstructural Modifications Affecting The Electrochemical Corrosion Behavior of an Al-9wt%Si Casting Alloy", Department of Materials, Engineering, University of Campinas-UNICAMP, J. of New Materials for Electrochemical Systems, March 10, 2008, pp.205.
 Ma S., "A Methodology to Predict the Effects of Quench Rates on Mechanical Properties of Cast Aluminum Alloys", PhD Thesis, Materials Science and Engineering, Worcester Polytechnic Institute, 2006.
 Totten G.E., Liscic B., Kobasko N.I., Han S.W., Sun Y.H., "Advances in polymer quenching technology", http://www.quenchtek.com/pdf_files/technical_paper/ Advances%20in%20Polymer%20Quenching%20Technology.pdf, pp.1-8.
 Zhang S., Wang F., "Comparison of friction and wear performances of brake material dry sliding against two aluminum matrix composites reinforced with different SiC particles", J. Mat. Proc. Tech., vol.182, (2007), pp. 122–127.
 Lu L., Nogita K., McDonald S.D., Dahle A.K., "Eutectic solidification and its role in casting porosity formation", A publication of the minerals, metals and materials society, vol.56, no.11, (2004), pp. 52-58.
 Taylor J.A., "The effect of Iron in Al-Si casting alloys", http://www.aomevents.com/conferences/afi/papers/Taylor.pdf
 Ceschini L., et.al., "Microstructure, tensile and fatigue properties of the Al–10%Si– 2%Cu alloy with different Fe and Mn content cast under controlled conditions", J. Mat. Proc. Tech., vol.209, (2009), pp. 5669–5679.