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Structure and Properties of Barium Titanate Lead-Free Piezoceramic Manufactured by Binder Jetting Process

Vadim Sufiiarov, Artem Kantyukov, Anatoliy Popovich, Anton Sotov

2021Materials37 citationsDOIOpen Access PDF

Abstract

This article presents the results of manufacturing samples from barium titanate (BaTiO3) lead-free piezoceramics by using the binder jetting additive manufacturing process. An investigation of the manufacturing process steps for two initial powders with different particle size distributions was carried. The influence of the sintering and the particle size distribution of the starting materials on grain size and functional properties was evaluated. Samples from fine unimodal powder compared to coarse multimodal one have 3–4% higher relative density values, as well as a piezoelectric coefficient of 1.55 times higher values (d33 = 183 pC/N and 118 pC/N correspondingly). The influence of binder saturation on sintering modes was demonstrated. Binder jetting with 100% saturation for both powders enables printing samples without delamination and cracking. Sintering at 1400 °C with a dwell time of 6 h forms the highest density samples. The microstructure of sintered samples was characterized with scanning electron microscopy. The possibility of manufacturing parts from functional ceramics using additive manufacturing was demonstrated.

Topics & Concepts

Materials scienceSinteringBarium titanateComposite materialCeramicMicrostructureRelative densityScanning electron microscopeParticle-size distributionParticle sizeGrain sizePiezoelectricitySaturation (graph theory)Chemical engineeringEngineeringMathematicsCombinatoricsAdditive Manufacturing and 3D Printing TechnologiesAdvanced Sensor and Energy Harvesting MaterialsInjection Molding Process and Properties
Structure and Properties of Barium Titanate Lead-Free Piezoceramic Manufactured by Binder Jetting Process | Litcius