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[1]范东亮,张光宇,方 璐,等.有限元仿真的衍射时差法缺陷超声检测研究[J].武汉工程大学学报,2020,42(03):327-331,337.[doi:10.19843/j.cnki.CN42-1779/TQ.201903032]
 FAN Dongliang,ZHANG Guangyu,FANG Lu,et al.Ultrasonic Detection of Material Defect with Time of Flight Diffraction by Finite Element Simulation[J].Journal of Wuhan Institute of Technology,2020,42(03):327-331,337.[doi:10.19843/j.cnki.CN42-1779/TQ.201903032]
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有限元仿真的衍射时差法缺陷超声检测研究(/HTML)
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
42
期数:
2020年03期
页码:
327-331,337
栏目:
机电与信息工程
出版日期:
2023-03-14

文章信息/Info

Title:
Ultrasonic Detection of Material Defect with Time of Flight Diffraction by Finite Element Simulation
文章编号:
1674 - 2869(2020)03 - 0327 - 05
作者:
范东亮张光宇方 璐陈汉新*
武汉工程大学机电工程学院,湖北 武汉 430205
Author(s):
FAN Dongliang ZHANG Guangyu FANG Lu CHEN Hanxin*
School of Mechanical and Electrical Engineering, Wuhan Institute of Technology, Wuhan 430205, China
关键词:
焊缝缺陷TOFD有限元仿真超声检测
Keywords:
weld defect TOFD finite element simulation ultrasonic detection
分类号:
TB553
DOI:
10.19843/j.cnki.CN42-1779/TQ.201903032
文献标志码:
A
摘要:
材料缺陷检测的缺点是超声信号容易被系统噪声污染,本文提出超声波衍射时差法的有限元仿真方法研究材料焊缝缺陷识别,应用ANSYS软件计算有限元数字模型,确定超声检测过程仿真的加载应用规则,分析直通波、衍射波和底面回波的接收时间,得到声压幅值图像,获取实验信号,并与仿真信号比较,结果显示,采用该方法评估焊缝缺陷大小和位置是有效的。
Abstract:
Since signals may be corrupted by system noise in ultrasonic detection for material defect, we proposed to identify defects in material welding seam based on a finite element simulation of the time of flight diffraction. Our method calculated the numerical model of the finite element based on the ANSYS software. The application rules of the load were determined for the simulation of the ultrasonic detection process. The acceptance time of the received lateral, diffracted and bottom waves in the material was analyzed. The images for the sound pressure amplitudes were obtained. Results of simulated?and?experimental?signals were analyzed. We found that it is effective for the proposed method to evaluate the sizes and locations of the welding defect.

参考文献/References:

[1] 董建峰,卢亚东,张玲,等. 压力容器焊接质量缺陷成因及控制措施[J]. 中国高新技术企业, 2008(16):125-126. [2] SINCLAIR A N, FORTIN J, SHAKIBI B, et al. Enhancement of ultrasonic images for sizing of defects by time-of-flight diffraction[J]. NDT & E international, 2010,43(3):258-264. [3] 伏喜斌. 压力容器焊缝超声TOFD检测的COMSOL模拟[J]. 无损检测,2018,40(7):9-14. [4] 陈汉新,向波,周庆,等. 超声相控阵有限元建模分析[J]. 焊接技术,2018,47(1):15-17. [5] DUAN J X, LUO L, GAO X R, et al. Hybrid ultrasonic TOFD imaging of weld flaws using wavelet transforms and image registration[J]. Journal of Nondestructive Evaluation,2018,37(2):23. [6] 陈尧,冒秋琴,石文泽,等. 基于相位相干性的厚壁焊缝TOFD成像检测研究[J]. 机械工程学报, 2019, 55(4):25-32. [7] 周红明,张小杰,周闻青. 基于有限元模型的超声TOFD检测影响因素分析[J]. 机械工程与自动化,2018,53(5):48-49. [8] 阎长周,姚遥,顾军,等. 衍射时差法(TOFD)技术的测量误差分析[J]. 压力容器,2019,36(1):10-19. [9] 雷康. 基于机器车爬行扫查的自动化超声TOFD检测技术的研究[D]. 杭州:浙江大学,2018. [10] 陈振华,郑志远,卢超. 不锈钢焊缝中超声传播特性及TOFD检测方法研究[J]. 电子测量与仪器学报,2017,31(7):1129-1136. [11] 赵军伟,李亚琼. 焊缝超声波衍射时差法的研究现状[J]. 科技资讯,2018,16(8):86-87. [12] 原培,王强,翟永军,等. 球罐对接焊缝超声TOFD及超声相控阵检测实验研究[J]. 中国计量大学学报,2018,29(1):14-19. [13] 张涛. 基于衍射横波的焊缝近表面缺陷TOFD检测方法[J]. 天然气与石油,2017,35(3):1-5. [14] CHEN H X, FAN D L, HUANG J M, et al. Finite element analysis model on ultrasonic phased array technique for material defect?time of flight diffraction detection[J]. Science of Advanced Material, 2020, 12(5):665-675. [15] 孙魁. 基于超声波信号的焊缝评估研究[D]. 武汉:武汉工程大学,2013.

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备注/Memo

备注/Memo:
收稿日期:2019-03-29基金项目:国家自然科学基金(51775390);湖北省科技厅技术创新专项(2016AAA056);湖北省教育厅重大项目(Z20101501)作者简介:范东亮,硕士研究生。E-mail:[email protected]*通讯作者:陈汉新,博士,教授。E-mail:[email protected]引文格式:范东亮,张光宇,方璐,等. 有限元仿真的衍射时差法缺陷检测研究[J]. 武汉工程大学学报,2020,42(3):327-331,337.
更新日期/Last Update: 2020-07-09