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The influence of particle size distribution on rheological properties of fused silica pastes for direct ink writing

Anasheh Khecho, Seyed Amir Ghaffari, Bijan Eftekhari Yekta

2022International Journal of Applied Ceramic Technology18 citationsDOI

Abstract

Additive manufacturing of ceramics through the direct ink writing method becomes possible when the effective parameters on rheology are optimized accurately. Successful manufacturing first requires the easy flowing of the ink through the nozzle and then a suitable viscoelastic response for the shape retention of the 3D printed structure. In the present study, fused silica pastes with different particle size distributions varying from D90 of 5–50 µm were prepared for direct ink writing of porous structures. The rheological properties of the pastes, including flow behavior and the viscoelastic moduli variations, were investigated to study the influence of particle size and its distribution on fabricating complex structures. Through investigations, it was found that the narrower size distributions were more appropriate for direct ink writing of fused silica pastes. As the distribution became narrow, the shear thinning behavior was intensified, and the pastes showed high elasticity. The sintering procedure was performed using microwave radiation to suggest a fast process for manufacturing fused silica complex parts containing partially crystallized cristobalite phase and providing porosity of about 10% and a relative density of 90%.

Topics & Concepts

Materials scienceRheologyComposite materialInkwellViscoelasticityPorosityParticle-size distributionShear thinningParticle sizeCristobaliteCeramicElasticity (physics)SinteringChemical engineeringQuartzEngineeringAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsInjection Molding Process and Properties
The influence of particle size distribution on rheological properties of fused silica pastes for direct ink writing | Litcius