Effects of AlN inorganic binder on the properties of porous Si3N4 ceramics prepared by selective laser sintering.

Porous Si 3 N 4 ceramics are widely used in the aerospace field due to its lightweight, high-strength, and high wave transmission. Traditional manufacturing methods are difficult to fabricate complex structural and functional ceramic parts. In this paper, selective laser sintering (SLS) technology was applied to prepare porous Si 3 N 4 ceramics using AlN as an inorganic binder. And the effects of AlN content on the properties of the obtained ceramic samples were explored. As the AlN content increased, nano-Al 2 O 3 and nano-SiO 2 formed the eutectic liquid phase, enhancing the sintering densification and phase transformation of Si 3 N 4 poly-hollow microspheres (PHMs). The island-like partial densification structures in Si 3 N 4 green bodies increased. During the high-temperature sintering, the eutectic liquid phase partially transformed into the mullite phase or reacted with AlN and Si 3 N 4 to form the Sialon phase. With the increase of AlN content, the fracture mode of Si 3 N 4 ceramics changed from fracturing along PHMs to fracturing across PHMs. The bonding depth between PHMs increased and the connection between the grains was tighter, so the Si 3 N 4 ceramics became denser. With the increase of AlN addition, the total porosity of the porous Si 3 N 4 ceramics tended to decrease and the flexural strength gradually increased. When AlN content was 20 wt%, the total porosity and the flexural strength were 33.6% and 23.9 MPa, respectively. The addition of AlN inorganic binder was carried out to develop a novel way to prepare high-performance porous Si 3 N 4 ceramics by SLS. [ABSTRACT FROM AUTHOR]