TY - JOUR TI - Effects of infiltration pressure on mechanical properties of Al–12Si/graphite composites for piston engines AU - Narciso, Javier AU - Molina Jordá, José Miguel AU - Rodríguez Guerrero, Alejandro AU - Rodríguez Reinoso, Francisco AU - Louis, Enrique DA - 2016-04-15 UR - http://hdl.handle.net/10045/53437 AB - In this work results for the flexural strength and the thermal properties of interpenetrated graphite preforms infiltrated with Al-12wt%Si are discussed and compared to those for packed graphite particles. To make this comparison relevant, graphite particles of four sizes in the range 15–124 μm, were obtained by grinding the graphite preform. Effects of the pressure applied to infiltrate the liquid alloy on composite properties were investigated. In spite of the largely different reinforcement volume fractions (90% in volume in the preform and around 50% in particle compacts) most properties are similar. Only the Coefficient of Thermal Expansion is 50% smaller in the preform composites. Thermal conductivity of the preform composites (slightly below 100 W/m K), may be increased by reducing the graphite content, alloying, or increasing the infiltration pressure. The strength of particle composites follows Griffith criterion if the defect size is identified with the particle diameter. On the other hand, the composites strength remains increasing up to unusually high values of the infiltration pressure. This is consistent with the drainage curves measured in this work. Mg and Ti additions are those that produce the most significant improvements in performance. Although extensive development work remains to be done, it may be concluded that both mechanical and thermal properties make these materials suitable for the fabrication of piston engines. KW - Metal-matrix composites (MMCs) KW - Interphase KW - Mechanical testing KW - Liquid metal infiltration DO - 10.1016/j.compositesb.2016.01.022 SN - 1359-8368 (Print) PB - Elsevier ER -