基于响应面法的埋弧焊磁控传感器参数优化
pplication of response surface methodology for optimizing the magnetic-control submerged-arc welding sensor parameters
为解决磁控埋弧焊传感器焊缝跟踪信号不稳定性、成形质量差等问题,采用BBD设计试验方案,基于响应面法建立了的埋弧焊焊缝自动跟踪磁控传感器参数(励磁频率、励磁电流、磁极高度、焊接电流)与预测响应值(焊缝跟踪信号、熔宽)的数学模型,能够根据跟踪信号质量和焊缝成形的要求优选传感器参数。并通过优化传感器参数来预测埋弧焊焊缝跟踪信号质量以及焊缝的熔宽,实现焊缝成形与跟踪信号的最佳组合,以提高磁控埋弧焊的焊缝跟踪精度及焊接质量。
o solve the instability of magnetic-control SAW sensor's seam tracking signal and poor molding quality, a mathematical model of submerged arc seam tracking magnetic sensor parameters (excitation frequency, excitation current, pole height, welding current) and prediction of response value (seam tracking signal, weld width) is established based on RSM using BBD. It can match the sensor's parameters with the signal and the modeling requirements. The accuracy and quality of the seam can be improved through the optimization of the sensor's parameters.
汤希、洪波、李湘文、朱亚飞、陈宇
电子技术应用
埋弧焊磁控传感器响应面法焊缝跟踪信号
SAWmagnetic-control sensorRSMseam tracking
汤希,洪波,李湘文,朱亚飞,陈宇.基于响应面法的埋弧焊磁控传感器参数优化[EB/OL].(2013-08-29)[2025-08-02].http://www.paper.edu.cn/releasepaper/content/201308-339.点此复制
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