• Kurzydłowski, Krzysztof
• Olszyna, Andrzej
• Matysiak, Hubert
• Ciupiński, Łukasz

Abstract

<p>The present study was concerned with multilayer composites of the .../Al₂O₃/Al₂O₃ + x vol. % Mo/Al₂O₃ type produced by tape casting. Molybdenum content in individual layers of the composites varied from 4 to 28 vol. %. The densities, porosities, Young moduli, bending strengths, and fracture toughnessess of the composites were measured. The residual stress in the layers was analysed by FEM. Investigations of the composite microstructures revealed: α-Al₂O₃, Mo, and Mo₂C. After sintering, the composites had a high relative density (the porosity P_c did not exceed 10%). As the volumetric content of molybdenum increased, the densities of the composites increased, whereas their Young moduli E decreased. The highest values of the bending strength σ_b (819 MPa), stress intensity factor K_IC (7.75MPa·m^1/2), and cracking energy γ (102 J/m²) were obtained in the composite with the 14 vol. % molybdenum content. The strength σ_b and fracture toughness of this composite were more than two times higher than those of Al ₂O₃, and the cracking energy - six times. These values can be partly explained in terms of the compressive residual stress in the composite layers.</p>

Topics

• density
• molybdenum
• strength
• composite
• casting
• porosity
• fracture toughness
• sintering
• ion chromatography