激光扫描焊趾几何形状的滤波器校准方法

IF 2.2 Q2 ENGINEERING, MULTIDISCIPLINARY Applications in engineering science Pub Date : 2024-11-06 DOI:10.1016/j.apples.2024.100200
Finn Renken , Matthias Jung , Sören Ehlers , Moritz Braun
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引用次数: 0

摘要

焊缝扫描可用于评估局部焊趾的几何形状,以进行疲劳评估。激光扫描的焊缝轮廓通常含有噪声,这使得焊趾几何形状的精确测量变得复杂。因此,有必要对扫描数据进行过滤。目前的问题是,滤波方法会严重影响测量结果。因此,需要对滤波器输入参数进行校准。在本研究中,通过使用人工焊趾几何形状,提出了一种用于滤波激光扫描焊缝轮廓的校准方法。通过对带有人工噪声的预定义焊趾使用优化方法,实现了对不同滤波器函数的调整。滤波器函数的输入数据在真实试样上进行测试,以验证该方法。通过校准方法,可以精确设置滤波函数的输入参数,从而获得令人满意的测量结果。最适合测量焊趾的滤波器函数是高斯滤波器和低通滤波器。这两种滤波器都是通用的滤波器。为了评估半径和角度的测量结果,引入了一个公差范围,该范围由理论上可测量的最小半径和角度定义。使用调整后的低通滤波器和激光扫描仪设定的 0.07 毫米点距,可以在 0.2 毫米的公差范围内测量焊趾半径。对于焊趾角度,大部分测量都能达到 1.5° 的公差范围。
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A filter calibration method for laser-scanned weld toe geometries
The scanning of weld seams can be used to evaluate the local weld toe geometry for fatigue assessments. Laser scanned weld seam profiles often contain noise which complicates the accurate measurement of the weld toe geometry. For that reason, filtering of the scanned data is necessary. The issue at hand is that a filtering method can significantly affect the measurement results. Therefore, a calibration of the filter input parameters is needed. In this study, a calibration method for filtered laser-scanned weld profiles is presented by using artificial weld toe geometries. The adjustment of different filter functions is achieved by using an optimization method on predefined weld toes with an artificial noise. The resulting input data for the filter functions is tested on a real specimen to verify the method. Through the calibration method it is possible to achieve satisfactory measurement results with precisely set input parameters for the filter functions. The most suitable filter functions for the measurement of the weld toe are the Gaussian and the Lowpass filter. Both functions are adequate as a universally applicable filter. For the evaluation of the measurement results of the radii and angles, a tolerance range is introduced, which is defined by the theoretically minimum measurable radii and angles. Using an adjusted Lowpass filter and a point distance of 0.07 mm set by the laser scanner, a measurement within the tolerance range of 0.2 mm is achievable for the weld toe radius. For the weld toe angle, the tolerance range of 1.5° is achieved for the majority of measurements.
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来源期刊
Applications in engineering science
Applications in engineering science Mechanical Engineering
CiteScore
3.60
自引率
0.00%
发文量
0
审稿时长
68 days
期刊最新文献
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