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Method for making niobic magnesium acid lead-lead titanate single-crystal longitudinal vibration transverter

A lead magnesium niobate, transducer technology, applied in piezoelectric devices/electrostrictive devices and other directions, can solve the problems of large changes in PMNT single crystal capacitance, and achieve low production process temperature, simple application method, and high electromechanical coupling. performance effect

Inactive Publication Date: 2007-02-28
INST OF ACOUSTICS CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

) However, the capacitance of PMNT single crystal changes greatly under compressive stress

Method used

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  • Method for making niobic magnesium acid lead-lead titanate single-crystal longitudinal vibration transverter
  • Method for making niobic magnesium acid lead-lead titanate single-crystal longitudinal vibration transverter
  • Method for making niobic magnesium acid lead-lead titanate single-crystal longitudinal vibration transverter

Examples

Experimental program
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Effect test

Embodiment 1

[0036] With reference to the structure of Fig. 2, a PMNT single crystal longitudinal array transducer with a resonant frequency of 11KHz has been produced, according to the prestressing mode of Fig. 4, the method of the present invention is described in detail:

[0037] (1) First, according to the structure of the longitudinal array transducer shown in Figure 2, the Ansys software is used to design the parts of the PMNT single crystal longitudinal vibration transducer with a resonant frequency of 11KHz (mainly including the radiation head 1, the tail load 3 and the The material, size and quantity of the piezoelectric element stack 2) in the middle. Among them, the materials of the front radiation head 1 and the tail load 3 are selected from aluminum and copper respectively, the surface of the front radiation head 1 is designed to be a square 40×40mm, and the tail load 3 is φ20×φ7×32mm, and a common stress screw 5 is used. The diameter is φ7mm. The piezoelectric element stack ...

Embodiment 2

[0042] Embodiment 2: With reference to the structure of Fig. 2, according to the pressurization method shown in Fig. 4 and the steps described in Example 1, a PMNT single crystal transducer with a prestress size of 12.0Mpa is produced, and then carried out at a low temperature of 50°C Cured for 40 hours. The capacitance of the solidified PMNT single crystal transducer measured by a capacitance meter is 16.5nF. Subsequently, the PMNT single crystal transducers were vulcanized with polyurethane rubber at 40 °C for 24 hours to seal them into a single array. The pool test results show that the PMNT single crystal transducer has a maximum emission voltage sensitivity Svmax=147.0dB (corresponding to a frequency of 11KHz), and a maximum receiving voltage response sensitivity of Momax=-172.5dB (corresponding to a frequency of 14KHz). Compared with the PMNT single crystal transducer in Example 1, its emission sensitivity is higher, and its reception sensitivity is slightly lower.

Embodiment 3

[0043] Embodiment 3: With reference to the structure of Fig. 2, according to the pressurization method shown in Fig. 4 and the steps described in Example 1, a PMNT single crystal transducer with a prestress size of 6.0Mpa is produced, and then carried out at a low temperature of 60°C Cured for 70 hours. The PMNT single crystal transducer was vulcanized with rubber at 60°C for 40 hours to seal it into a single array.

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Abstract

The invention relates to a method for preparing niobium magnesium acid lead-lead titanate single crystal longitudinal-vibration energy exchanger. Wherein, it comprises: using Ansys software to design front radiator, tail load and piezoelectric crystal pile, to be assembled; using table clamper to position the front radiator; functioning -12.0MPa prestress on the tail load; welding the positive copper electrodes via one wire, as the anode of energy exchanger; welding the passive copper electrodes via one wire as the cathode; putting it into low-temperature oven at 30-60Deg. C to be solidified for 20-72 hours; sealing and vulcanizing. The invention has low working temperature, simple stress function, to express the high electromechanical couple property of PMNT single crystal material, to control the receiving sensitivity of longitudinal vibration energy exchanger.

Description

technical field [0001] The invention relates to a sonar and underwater acoustic transducer, in particular to a method for controlling the receiving sensitivity of a lead magnesium niobate-lead titanate single crystal longitudinal vibration transducer. Background technique [0002] Functional materials are the key components of transducers. To a large extent, the improvement of transducer performance depends on the emergence of new functional materials. PZT piezoelectric ceramics developed in the 1950s have become the material of choice for underwater acoustic transducers due to their wide operating temperature range and excellent electromechanical conversion efficiency. [0003] In recent years, new functional materials such as relaxor ferroelectric single crystal materials such as lead magnesium niobate-lead titanate (Pb(Mg 1 / 3 Nb 2 / 3 )O 3 -PbTiO 3 , referred to as PMN-PT or PMNT) has made a breakthrough in the growth and preparation, and its research and application ha...

Claims

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Application Information

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IPC IPC(8): H01L41/08
Inventor 温建强李俊宝解宝兴高俊琴李宗杰夏金东
Owner INST OF ACOUSTICS CHINESE ACAD OF SCI
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