SU1273348A1 - Piezoceramic material - Google Patents

Abstract

The invention relates to the field of piezoelectric ceramics and can be used as piezofilters in radar signal processing units, piezo sensors, and microwave resonators. The goal — an increase in the phase transition temperature and a decrease in the sintering temperature is solved by adding pre-synthesized bismuth tungstate to the synthesized lead titanate in the following ratio of components, wt%: PbTiOs 92-98, BiWO 2-8. The piezoceramic material has the following characteristics at room temperature: density 7.457, 63 g / cm, dielectric constant 170-190, dielectric loss 0.020-0.022, piezomodule

Description

The invention relates to piezoelectric ceramics and can be used as filters in processing units of radar signals, piezoelectric sensors and microwave resonators having an increased operating temperature of up to 500 ° C.

The purpose of the invention is to increase the temperature of the phase transition and lower the sintering temperature of the piezoceramic material.

For the manufacture of piezoelectric ceramics, oxides are used. Lead titanate is synthesized for 3 hours at 850 ° C, bismuth tungstate - for 2 hours, at 650 ° C. The briquettes are ground after synthesis in a jasper drum, in isopropyl alcohol for 20 hours. The slip is dried at 150 C for 5 hours, the synthesized lead titanate and bismuth tungstate are weighed according to the composition. The components are mixed in a jasper drum in isopropyl alcohol for 20 hours. The dried slip is pressed into disks with a diameter of 12 mm 2 2 mm thick. A 3% aqueous solution of polyvinyl 1273348 2 new alcohol is used as a binder. ”Sintering is carried out at

1120-1140 ° С for 1 h. Electrodes are applied to polished samples by vacuum deposition of aluminum.

Polarization is carried out in a polysiloxane liquid at 180 ° C for 4 hours at a field strength of 4560 kV / cm. Dielectric properties are measured at a frequency of 10 ⁵ Hz.

The chemical composition of the materials is given in table 1, their properties in table 2.

The proposed material is intended

I for the manufacture of piezoelectric sensors and ceramic filters for integrated circuits.

Claims (2)

The invention relates to piezoelectric ceramics and can be used as filters in processing units for radar signals, piezo sensors and microwave resonators having an increased operating temperature of up to 500 C. The purpose of the invention is to increase the phase transition temperature and decrease the sintering temperature of piezoceramic material, I For the manufacture of piezoelectric ceramics, oxides of the grade of chd are used. Titanium nat lead is synthesized for 3 at 850 ° C, bismuth tungstate - for 2 hours at 650 C. After the synthesis, the grinding of briquettes is carried out in a shmov drum, in an environment of isopropyl alcohol for 20 hours. , weighted according to the composition of both synthesized lead titanate and bismuth tungstate. The components are mixed in a shma drum in isopropyl alcohol for 20 hours. The dried slip is pressed into disks with a diameter of 12 mm and a thickness of 2 mm. Sintering was carried out at 1120-1140 ° C for 1 hour as a binder of used alcohol. Electrodes were deposited on ground samples by applying the method of aluminum deposition in vacuum. Polarization is carried out in a polysiloxane fluid at 180 ° G for 4 hours at a field strength of 4560 kV / cm. Dielectric properties are measured at frequency. The chemical composition of the materials is given in table 1, their properties - in table. 2. The proposed material is intended for the manufacture of piezoelectric sensors and ceramic filters for integrated circuits. Claims of the Invention A piezoceramic material containing RTUB and an additive, characterized in that, in order to increase the phase transition temperature and decrease the sintering temperature, it contains BiWO as an additive in the following ratio of components, wt.%: PbTiO ,. 92-98 Dielectric constant, Dielectric loss, tgS Piezomodul d ,, CL / N Maximum d-j drift in the range of 20-500 ° С from the value at 20 ° С,% 180 170 0.022 23 0.021 25 22 27