Transparent MgAl2O4/LiF ceramics by hot-pressing: Host-additive interaction mechanisms issue revisited

Hot-pressing schedules - able to ensure a proper balance between positive and negative effects of LiF - allow fabrication of highly transparent MgAl2O4 parts under low-pressure (<= 50 MPa); peak temperatures in excess of similar to 1550 degrees C are needed, with best results obtained at similar to 1650 degrees C. At the concentration-levels and conditions present during hot-pressing, LiF does not react with spinel; it is inert also toward graphite. The lubricant and solvent abilities of liquid LiF make possible achievement of densification levels >90%TD under 1200 degrees C. All LiF leaves the specimens as such at temperatures <= 1550 degrees C. LiF's ability to close porosity at temperatures lower than those (>1350 degrees C) - which allow significant carbon penetration into spinel is essential in achievement of transparency. Light absorption - occurring when carbon is present - is thus prevented. The main light-scattering defect produced by HPing, in the presence of LiF, is micro and macro-cracking; opaque spots, due to un-complete densification, are rare. (C) 2016 Elsevier Ltd. All rights reserved.