Effect of Two-Step Sintering on Properties of Alumina Ceramics Containing Waste Alumina Powder

Abstract: This study aims to evaluate the recycling potential of solid waste alumina powder (WAP) by utilization of the two-step sintering (TSS) process. For the study, WAP was collected as an industrial scrap after the machining process for the formation of green alumina compacts. The alumina samples were prepared according to the slip casting method by preparing suspensions containing commercial alumina with 0.8 μm average particle size and by adding up to 20 dwb. % (i.e., expressed on a dry weight basis) of WAP with … Show more

“…Higher sintering temperatures favor gas diffusion in ceramic materials to suppress the formation of pores [ 3 ]. Due to the complex crystallization properties of aluminosilicate ceramic oxide components, high temperatures (>1200 °C) are normally employed to ensure complete sintering [ 4 , 5 , 6 ], giving rise to huge energy consumption.…”

Reducing Water Absorption and Improving Flexural Strength of Aluminosilicate Ceramics by MnO2 Doping

“…Higher sintering temperatures favor gas diffusion in ceramic materials to suppress the formation of pores [ 3 ]. Due to the complex crystallization properties of aluminosilicate ceramic oxide components, high temperatures (>1200 °C) are normally employed to ensure complete sintering [ 4 , 5 , 6 ], giving rise to huge energy consumption.…”

Reducing Water Absorption and Improving Flexural Strength of Aluminosilicate Ceramics by MnO2 Doping

Application of Various Reduction Techniques for the Improvement of Microstructure and Strength of YSZ–NiO(Ni) Solid Oxide Fuel Cell Anodes

The Effect of Hydrogen Concentration on the High-Temperature (600 °C) Reduction Performance and Strength of YSZ–NiO(Ni) Anode Material for Solid Oxide Fuel Cells