论文信息 - Monitoring of liquid droplets in laser-enhanced GMAW

Monitoring of liquid droplets in laser-enhanced GMAW

In the laser-enhanced gas metal arc welding (GMAW) process developed recently, droplets of melted metal can be detached from the wire under relatively low currents with the assistance of an auxiliary force provided by a laser. The stability of the arc and the quality of the resultant welds are improved. To compete with the gas tungsten arc welding of the much lower productivity in joining precision, the size of the droplet can be pre-defined and be controlled to meet the requirements from different applications. For this purpose, image processing algorithms are developed to measure the size of a growing droplet during the laser-enhanced GMAW process. The relatively low contrast, strong illumination and reflection caused by the laser, and strong radiation from the arc make an automatic processing of the image challenging. Images are analyzed to understand its characteristics and design the image processing and recognition algorithms accordingly. In particular, a model-based method is used to filter out non-droplet edge points and a second order equation in the polar coordinate system is introduced to model the droplet. Experimental results verified the effectiveness of the developed algorithms.

[1] J. A. Hartigan,et al. A k-means clustering algorithm , 1979 .

[2] Kang-Yul Bae,et al. An optical sensing system for seam tracking and weld pool control in gas metal arc welding of steel pipe , 2002 .

[3] Lin Li,et al. Adaptive control of full penetration gas tungsten arc welding , 1996, IEEE Trans. Control. Syst. Technol..

[4] Yuming Zhang,et al. Laser-Enhanced GMAW , 2010 .

[5] Chiung-Hsin Tsai,et al. Fuzzy control of pulsed GTA welds by using real-time root bead image feedback , 2006 .

[6] S. Rhee,et al. Analysis of arc pressure effect on metal transfer in gas-metal arc welding , 1991 .

[7] Shanben Chen,et al. Visual sensing and penetration control in aluminum alloy pulsed GTA welding , 2009 .

[8] Yuming Zhang,et al. Brightness-Based Selection and Edge Detection-Based Enhancement Separation Algorithm for Low-Resolution Metal Transfer Images , 2009, IEEE Transactions on Automation Science and Engineering.

[9] YuMing Zhang,et al. Measurement and Analysis of Three-Dimensional Specular Gas Tungsten Arc Weld Pool Surface , 2008 .

[10] YuMing Zhang,et al. INSTITUTE OF PHYSICS PUBLISHING , 2003 .

[11] Paul Wintz,et al. Digital image processing (2nd ed.) , 1987 .

[12] WANGZhenzhou,et al. A New Cross Based Gradient Descent Search Algorithm for Block Matching in MPEG-4 Encoder , 2003 .

[13] YuMing Zhang,et al. Numerical analysis of metal transfer in gas metal arc welding under modified pulsed current conditions , 2004 .