纵振超声刀柄优化设计研究

Limin Wu; Huaixing Wen; Zhili Long

doi:10.11977/j.issn.1004-2474.2019.01.021

纵振超声刀柄优化设计研究

Translated title of the contribution: Study on Optimization Design of Ultrasonic Shank With Longitudinal Vibration

Limin Wu
, Huaixing Wen
, Zhili Long

Shaanxi University of Science and Technology
Harbin Institute of Technology Shenzhen

Research output: Contribution to journal › Article › peer-review

Abstract

Aiming at the problem that the hard and brittle materials are difficult to process, the ultrasonic shank is designed on the basis of the traditional shank. Taking the ultrasonic shank with longitudinal vibration as the research object, the modal and harmonious response analysis is carried out by using Ansys, and the vibration mode and amplitude-frequency curve of each node of the shank are obtained. The simulation results show that the ultrasonic shank has an axial longitudinal vibration mode near the frequency of 23 kHz, and its vibration node is located on the cone on the horn. The amplitude and impedance curve of the ultrasonic shank holder and tail are measured by a laser Doppler vibrometer and impedance analyzer. The test results show that the resonance frequency is 23.9 kHz and the maximum amplitude is up to 10.54 μm, which is basically consistent with the simulation.

Translated title of the contribution	Study on Optimization Design of Ultrasonic Shank With Longitudinal Vibration
Original language	Chinese (Traditional)
Pages (from-to)	85-88
Number of pages	4
Journal	Yadian Yu Shengguang/Piezoelectrics and Acoustooptics
Volume	41
Issue number	1
DOIs	https://doi.org/10.11977/j.issn.1004-2474.2019.01.021
State	Published - 1 Feb 2019
Externally published	Yes

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10.11977/j.issn.1004-2474.2019.01.021

Cite this

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title = "纵振超声刀柄优化设计研究",

abstract = "Aiming at the problem that the hard and brittle materials are difficult to process, the ultrasonic shank is designed on the basis of the traditional shank. Taking the ultrasonic shank with longitudinal vibration as the research object, the modal and harmonious response analysis is carried out by using Ansys, and the vibration mode and amplitude-frequency curve of each node of the shank are obtained. The simulation results show that the ultrasonic shank has an axial longitudinal vibration mode near the frequency of 23 kHz, and its vibration node is located on the cone on the horn. The amplitude and impedance curve of the ultrasonic shank holder and tail are measured by a laser Doppler vibrometer and impedance analyzer. The test results show that the resonance frequency is 23.9 kHz and the maximum amplitude is up to 10.54 μm, which is basically consistent with the simulation.",

keywords = "Impedance analyzer, Laser doppler, Optimization research, Ultrasonic shank, Vibration energy",

author = "Limin Wu and Huaixing Wen and Zhili Long",

year = "2019",

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doi = "10.11977/j.issn.1004-2474.2019.01.021",

language = "繁体中文",

volume = "41",

pages = "85--88",

journal = "Yadian Yu Shengguang/Piezoelectrics and Acoustooptics",

issn = "1004-2474",

publisher = "Sichuan Institute of Piezoelectric and Acoustooptic Technology",

number = "1",

}

TY - JOUR

T1 - 纵振超声刀柄优化设计研究

AU - Wu, Limin

AU - Wen, Huaixing

AU - Long, Zhili

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Aiming at the problem that the hard and brittle materials are difficult to process, the ultrasonic shank is designed on the basis of the traditional shank. Taking the ultrasonic shank with longitudinal vibration as the research object, the modal and harmonious response analysis is carried out by using Ansys, and the vibration mode and amplitude-frequency curve of each node of the shank are obtained. The simulation results show that the ultrasonic shank has an axial longitudinal vibration mode near the frequency of 23 kHz, and its vibration node is located on the cone on the horn. The amplitude and impedance curve of the ultrasonic shank holder and tail are measured by a laser Doppler vibrometer and impedance analyzer. The test results show that the resonance frequency is 23.9 kHz and the maximum amplitude is up to 10.54 μm, which is basically consistent with the simulation.

AB - Aiming at the problem that the hard and brittle materials are difficult to process, the ultrasonic shank is designed on the basis of the traditional shank. Taking the ultrasonic shank with longitudinal vibration as the research object, the modal and harmonious response analysis is carried out by using Ansys, and the vibration mode and amplitude-frequency curve of each node of the shank are obtained. The simulation results show that the ultrasonic shank has an axial longitudinal vibration mode near the frequency of 23 kHz, and its vibration node is located on the cone on the horn. The amplitude and impedance curve of the ultrasonic shank holder and tail are measured by a laser Doppler vibrometer and impedance analyzer. The test results show that the resonance frequency is 23.9 kHz and the maximum amplitude is up to 10.54 μm, which is basically consistent with the simulation.

KW - Impedance analyzer

KW - Laser doppler

KW - Optimization research

KW - Ultrasonic shank

KW - Vibration energy

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DO - 10.11977/j.issn.1004-2474.2019.01.021

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SN - 1004-2474

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JF - Yadian Yu Shengguang/Piezoelectrics and Acoustooptics

IS - 1

ER -

纵振超声刀柄优化设计研究

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