Affiliation:
1. School of Materials Science and Engineering Changwon National University Changwon Gyeongsangnam‐do Republic of Korea
2. School of Materials Science and Engineering Gyeongsang National University Jinju Gyeongsangnam‐do Republic of Korea
3. Department of 3D Printing Materials Korea Institute of Materials Science Changwon Gyeongsangnam‐do Republic of Korea
Abstract
AbstractSintering phenomena, densification, and grain growth are crucial for proper control of the microstructure for good mechanical strength. Here, materials and processing parameters, the addition of La2O3, and two‐step sintering (TSS) were combined to lead to higher strength in the porous alumina prepared by freeze‐casting. Based on grain growth and densification behaviors with the La2O3 doping, a beneficial thermal profile was designed for the TSS. As a result, higher relative density levels and smaller grain size were obtained compared with the results with conventional sintering (CS): 38.56% and 0.82 µm at 1500°C by CS; 40.78% and 1.78 µm at 1600°C by CS; 41.43% and 0.87 µm by TSS. The microstructural benefits provided ∼1.4 times higher compressive strength (5.46 MPa) from TSS than from the CS sample (3.92 MPa), highlighting the synergetic effect of La2O3 doping and the TSS strategy.
Funder
Ministry of Culture, Sports and Tourism
National Research Foundation of Korea
Subject
Materials Chemistry,Ceramics and Composites