Liliana B. Garrido scite author profile

The optimization of concentrated Si 3 N 4 powder aqueous slurry properties to achieve high packing density slipcast compacts and subsequent high sintered densities was investigated. The influence of pH, sintering aid powder (6% Y 2 O 3 , 4% Al 2 O 3 ), NH 4 PA dispersant, and Si 3 N 4 oxidative thermal treatment was determined for 32 vol% Si 3 N 4 slurries. The results were then utilized to optimize the dispersion properties of 43 vol% solids Si 3 N 4 -sintering aid slurries. Calcination of the Si 3 N 4 powder was observed to result in significantly greater adsorption of NH 4 PA dispersant and effectively reduced the viscosity of the 32 vol% slurries. Lower viscosities of the optimized dispersion 43 vol% Si 3 N 4 -sintering aid slurries resulted in higher slipcast packing density compacts with smaller pore sizes and pore volumes, and corresponding higher sintered densities.

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Aqueous tape casting of yttria stabilized zirconia

Albano¹,

Garrido²

2006

Materials Science and Engineering: A

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Liliana B. Garrido

Mullite–zirconia–zircon composites: Properties and thermal shock resistance

Zirconia toughening of mullite–zirconia–zircon composites obtained by direct sintering

Colloidal processing, sintering and mechanical properties of zircon (ZrSiO4)

Thermal shock behavior of dense mullite–zirconia composites obtained by two processing routes

Sintering kinetics of 8Y–cubic zirconia: Cation diffusion coefficient

Microstructural development in porous β-Si3N4 ceramics prepared with low volume RE2O3–MgO–(CaO) additions (RE=La, Nd, Y, Yb)

Processing of Concentrated Aqueous Silicon Nitride Slips by Slip Casting

Aqueous tape casting of yttria stabilized zirconia

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