Development of ferroelectric paste by sceen printing technique

Abstract

In this research, ferroelectric paste formulations and fabrication into thick film by screen printing technique are studied. A stainless steel sheet is used as substrate to replace silicon and alumina because it is inexpensive and easily to find. The scope of this study is ferroelectric paste preparation, frit and phosphate ester effects, optimization of sintering temperature, and physical characterization of the film. From this experiment, the UPB8EF1 is the optimized ferroelecric paste formula considering its printability, physical appearance after firing at 750°c for 1 hour, and electrical properties. This formula is composed of ACL 4055 powder with the average particle size of 1.46 µm, terpineol as a solvent, ethyl cellulose as a binder, phosphate ester as a dispersant, and frit as a sintering aid. The average dielectric constant of this thick film is about 350 and the average dissipation factor is about 0.15 at 1 kHz frequency. This dielectric constant is rather high compared to a previous research (K=110); however, the dissipation factor is considered rather high due to the second phase and oxide layer occurred between the substrate and the thick film.