Microstructural development in porous β-Si_3N_4 ceramics prepared with low volume RE_2O_3-MgO-(CaO) additions (RE = La, Nd, Y, Yb)

摘要

Porous β-Si_3N_4 ceramics have a wide range of potential applications, including filters for hot gases or molten metals, bioreactor supports and lightweight structural components. In the present study, a new approach is taken for the production of porous β-Si_3N_4 ceramics based on compositional design. A low volume fraction of multiple sintering aids is employed, where each additive is designed to play one or more specific roles in the sintering behavior and microstructural development of β-Si_3N_4 (e.g. densification, α- to β-Si_3N_4 transformation, anisotropic β-Si_3N_4 whisker growth, debonding aid). The primary aim of this work was to develop β-Si_3N_4 ceramics with a more porous microstructure than in prior work (ideally with 20-40 vol.% porosity), while developing high grain aspect ratios (i.e. >10:l) such that good mechanical performance can be expected. Compositions are based on various ratios of RE_2O_3 :MgO, where RE = La, Nd, Y or Yb, with selected materials also prepared with small CaO additions. Sintering has been conducted in a nitrogen atmosphere (0.1 MPa), at temperatures between 1400 and 1700℃. The influence of sintering aid composition and sintering temperature has been assessed. Particular attention was paid to microstructure development, including: densification behavior, retained pore size, the extent of α- to β-Si_3N_4 transformation, and the evolution of β-Si_3N_4 grain aspect ratios.