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Study on the rheological properties and polishing properties of SiO <sub>2</sub> @CI composite particle for sapphire wafer

Jisheng Pan, Zhijun Chen, Qiusheng Yan

2020Smart Materials and Structures23 citationsDOI

Abstract

Abstract To study the rheological properties and polishing performance of magnetorheological fluids (MRFs) prepared with SiO 2 @carbonyl iron (CI) core-shell particles, SiO 2 @CI core-shell particles with different shell thicknesses were synthesized by an improved Stöber method controlling the amount of tetraethyl orthosilicate (TEOS). Then, four types of MRFs which dispersed with core-shell particles with thin shells, core-shell particles with thick shells, SiO 2 particles, or carbonyl iron were prepared for sapphire polishing. The results show that the rheological properties of MRF based on thicker shell SiO 2 @CI are enhanced compared to those of MRFs prepared by dispersing abrasive and CI. Comparing with other MRFs, sapphire can obtain better surface quality when using thicker shell SiO 2 @CI. The MRF fabricated by SiO 2 @CI core-shell particles can increase the contact area between the abrasive and the workpiece and enhance the contact stress, which improves the solid-phase reaction rate and mechanical removal efficiency of silica and sapphire, thereby improve the polishing efficiency.

Topics & Concepts

Materials scienceAbrasiveTetraethyl orthosilicateSapphirePolishingCarbonyl ironComposite materialChemical-mechanical planarizationComposite numberWaferMagnetorheological fluidRheologyParticle (ecology)Shell (structure)NanotechnologyOpticsLaserGeologyStructural engineeringDamperOceanographyPhysicsEngineeringAdvanced Surface Polishing TechniquesTunneling and Rock MechanicsAdvanced machining processes and optimization
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