Coating optimization of yield pseudoplastic paste-based stereolithography 3D printing of alumina ceramic core

Yield pseudoplastic paste is prepared for self-supported stereolithography (SLA) 3D printing with critical shear stress of 290.7 Pa and viscosity of 28810 mPa.s under strain rate of 30 s-1. Simulation analysis of paste coating is carried out based on established constitutive equation. Furthermore, corresponding stress field is analyzed under different layer thicknesses (25-100 mu m) and blade speeds (1.5-4.5 mm/s). Then, flexural strength, porosity, surface roughness and microstructure of components, printed with different layer thicknesses and sintered at different temperatures, are systematically investigated. Finally, complex-shaped cores are fabricated with flexural strength of 38.56 +/- 1.45 MPa, porosity of 21.57 +/- 0.8% and surface roughness of Ra < 3 mu m. The optimized parameters include layer thickness of 25-50 mu m, blade speed of 3.5 mm/s, and sintering temperature of 1300 ?. Moreover, step-like undulating fracture morphology of the core is observed along printing layer, which shows that the coating process has an important influence on the mechanical properties of ceramic parts.