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Ultrasonic amplitude-change pole assembly, and ultrasonic fatigue loading test device and method

An ultrasonic horn, fatigue loading technology, applied in the direction of measuring device, testing material strength by applying stable bending force, testing material strength by applying stable tension/pressure, etc. gradient, inaccurate test results, etc., to achieve good cooling performance and integration performance, increase cooling efficiency, and various test modes

Active Publication Date: 2021-12-14
JILIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Due to the simple structure of conventional ultrasonic fatigue components, it is difficult to place them in a high temperature environment as a whole
Existing ultrasonic fatigue testing instruments in high temperature environments use induction heating coils to inductively heat a small part of the sample, resulting in a large temperature gradient in the sample, and the test results are not accurate
Existing ultrasonic fatigue components are difficult to integrate with complex atmosphere chambers, so it is difficult to conduct ultrasonic fatigue tests in complex atmosphere environments
Further, the existing ultrasonic fatigue components can not realize the ultrasonic fatigue test under high temperature-complicated atmosphere environment

Method used

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  • Ultrasonic amplitude-change pole assembly, and ultrasonic fatigue loading test device and method
  • Ultrasonic amplitude-change pole assembly, and ultrasonic fatigue loading test device and method
  • Ultrasonic amplitude-change pole assembly, and ultrasonic fatigue loading test device and method

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Embodiment 1

[0064] like figure 2 As shown, the present embodiment provides an ultrasonic horn assembly 3 capable of amplifying ultrasonic vibrations, which includes a rod body, a sleeve 307 and a cooling channel. The rod body includes a first ultrasonic horn 303 and a second ultrasonic horn 305 docked with the first ultrasonic horn 303, and one of the first ultrasonic horn 303 and the second ultrasonic horn 305 is provided with a The sealing flange 301 is sealed and docked with the air chamber of the external equipment or the high-temperature air chamber, and the other is used to connect the sample 4; the sealing flange 301 is located in the vibration of the first ultrasonic horn 303 or the second ultrasonic horn 305 node (that is, the node where the vibration is zero). The sleeve 307 is sleeved on the outside of the rod body, and the two ends of the sleeve 307 are respectively sealed and connected with the first ultrasonic horn 303 and the second ultrasonic horn 305. Annular cavity C3...

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Abstract

The invention discloses an ultrasonic amplitude-change pole assembly. A rod body of the ultrasonic amplitude-change pole assembly comprises a first ultrasonic amplitude-change pole and a second ultrasonic amplitude-change pole, one of the first ultrasonic amplitude-change pole and the second ultrasonic amplitude-change pole is provided with a sealing flange, and the other one of the first ultrasonic amplitude-change pole and the second ultrasonic amplitude-change pole is connected with a sample; and the sealing flange is positioned at a vibration node of the first ultrasonic amplitude-change pole or the second ultrasonic amplitude-change pole. The rod body is sleeved with the sleeve, and an annular cavity gap with the two ends blocked is formed between the sleeve and the rod body. The cooling flow channel comprises an inner flow channel formed in the rod body, and the inner flow channel communicates with the annular cavity gap. The sealing flange is arranged on the rod body, so that the rod body can be effectively integrated with a complex atmosphere cavity or a high-temperature atmosphere cavity; a cooling medium sequentially flows through the inner flow channel and the annular cavity gap and can cool the rod body of the ultrasonic amplitude transformer assembly from inside to outside, so that the refrigeration efficiency is greatly improved. The invention further provides an ultrasonic fatigue loading test device with the ultrasonic amplitude transformer assembly and an ultrasonic fatigue loading test method based on the ultrasonic fatigue loading test device.

Description

technical field [0001] The invention relates to the field of high-cycle and ultra-high-cycle fatigue performance and durability testing of materials, in particular to an ultrasonic horn assembly, an ultrasonic fatigue loading test device and a test method that can be used in high temperature and complex atmosphere environments. Background technique [0002] Aeroengines and ground gas turbines are known as the "crown" of modern industry because of their complex processing and assembly techniques, and they are one of the important symbols of a country's comprehensive strength. The gas inlet temperature of the advanced aero-engine can reach 1380°C, and the thrust can reach 226kN. As the part with the worst service environment, the turbine blade is subjected to huge centrifugal force and aerodynamic force, the blade part bears a tensile stress of about 140MPa, and the blade root part bears an average stress of about 280-560MPa. The leaf body part and the leaf root part bear the...

Claims

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Application Information

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IPC IPC(8): G01N3/18G01N3/20G01N3/02
CPCG01N3/18G01N3/20G01N3/02G01N2203/0017G01N2203/0019G01N2203/0023G01N2203/0226G01N2203/0658
Inventor 赵宏伟赵久成赵蒙莉万杰王可心牟禹安朱志远
Owner JILIN UNIV
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