摘要
为了研究多层单道电弧增材表面3-D成形特征,采用激光视觉传感系统采集电弧增材制造表面条纹图像。提出基于边界约束条件的感兴趣区域(ROI)提取法对焊缝特征曲线进行定位,获取ROI的激光条纹像素坐标。进行了理论分析和实验验证,得到电弧增材表面的3-D离散点数据,采用Delaunay三角剖分对离散点拟合形成3-D实体表面。结果表明,锯齿靶标的线性标定方法,3-D重构精度在0.2mm以内;基于边界约束条件的ROI提取方法能准确定位电弧增材上表面和侧表面的条纹特征曲线。这一结果对电弧增材表面的3-D成形检测是有帮助的。
In order to investigate the 3-D forming characteristics of multi-layer single-pass arc additive manufacture surface,the laser vision sensing system was built to collect the surface stripe images of arc additive manufacture.An region of interest(ROI)extraction method based on boundary constraints was proposed to locate the weld characteristic curve,getting the laser stripe pixel coordinates of ROI.Through theoretical analysis and experimental verification,the 3-D discrete points set of the arc additive surface were obtained,and the discrete points were fitted to form a 3-D solid surface by Delaunay triangulation algorithm.The results show that 3-D reconstruction accuracy is within 0.2mm by linear calibration method of sawtooth,and the ROI extraction method based on boundary constraints can accurately locate the stripe characteristic curve of the top surface and side surface of the arc additive manufacture.The 3-D reconstruction of the arc additive manufacture surface can visually describe the formation of the weld,which provides a new test method for surface forming inspection of arc additive manufacturing.It is beneficial for 3-D forming detection of arc additive manufacture surface.
作者
马波
高向东
张南峰
张艳喜
游德勇
MA Bo;GAO Xiangdong;ZHANG Nanfeng;ZHANG Yanxi;YOU Deyong(Guangdong Provincial Welding Engineering Technology Research Center, Guangdong University of Technology, Guangzhou 510006, China)
出处
《激光技术》
CAS
CSCD
北大核心
2020年第3期321-325,共5页
Laser Technology
基金
国家自然科学基金资助项目(51675104)
广东省教育厅创新团队资助项目(2017KCXTD010)。
关键词
传感器技术
3-D重构
感兴趣区域提取
电弧增材
sensor technique
3-D reconstruction
region of interest extraction
arc additive
