Influences of laser in low power YAG laser-MAG hybrid welding process

The influences of laser defocusing amount△z,laser power P,space distance D_(LA)between laser and arc on weld penetration,arc modality and stability are investigated in low power YAG laser and metal active gas(laser-MAG)hybrid welding process.The experimental results indicate that the effects of laser- induced attraction and contraction of MAG arc are emerged in hybrid welding process,which result in the augmentation of hybrid welding energy.When D_(LA)=-0.5-2 mm,△z=-2-2 mm and P≥73 W,the synergic efficiency between laser and MAG arc is obvious,the cross section at the root of hybrid arc is contracted and the hybrid weld penetration is increased.The maximal ratio of hybrid/MAG weld penetration is 1.5 and the lowest YAG laser power that augments MAG arc is 73 W.The input of YAG laser makes the stabilities of arc ignition and combustion prominent in hybrid welding process.     

Influences of laser in low power YAG laser-MAG hybrid welding process

The influences of laser defocusing amount △z, laser power P, space distance DLA between laser and arc on weld penetration, arc modality and stability are investigated in low power YAG laser and metal active gas （laser-MAG） hybrid welding process. The experimental results indicate that the effects of laser-induced attraction and contraction of MAG arc are emerged in hybrid welding process, which result in the augmentation of hybrid welding energy. When DLA ： -0.5 - 2 mm, △z = -2 - 2 mm and P ≥ 73 W, the synergic efficiency between laser and MAG arc is obvious, the cross section at the root of hybrid arc is contracted and the hybrid weld penetration is increased. The maximal ratio of hybrid/MAG weld penetration is 1.5 and the lowest YAG laser power that augments MAG arc is 73 W. The input of YAG laser makes the stabilities of arc ignition and combustion prominent in hybrid welding process.     

激光焊接熔透特征信号同轴增效提取方法研究

熔透检测是实现高功率激光焊接质量在线控制的重要环节,但由于介观尺度下的低辐值熔透特征信号产生于激光匙孔底部被匙孔喷射物质和周围干扰信号完全掩盖,熔透状态难以被直接获取,常规检测多以间接测量为主。将光谱透视技术、红外显微成像技术、光电传感技术及空间定位提取技术相结合,提出一种激光焊接熔透特征信号同轴增效提取方法。以高功率激光在匙孔内壁激发的荧光辐射源作为直接检测信号,利用不同发光体的谱段特性在红外谱段有效分离并抑制激光焊接匙孔上方的等离子体、金属蒸汽焰、粒子团簇等强干扰信号,使红外荧光信号得到有效增强,实现光谱透视显像效果。同时采用自行研制的激光焊接同轴显微光路系统,利用红外显微成像原理提取到匙孔内壁受激辐射荧光的红外显微实像。并以此为基础对高功率激光焊接熔透状态与匙孔内部影像特征进行关联研究,发现与熔透状态直接相关的低辐射值特征现象及特征区域的存在。通过视觉辅助定位调节和熔透特征位置试验矫正等寻位方式,依次提高定位精度,直至将传感器光电感应芯片高精度定位至荧光辐射实像中的熔透特征区域。由此通过光谱透视-显微成像-介观寻位萃取的逐层光学分离方式,实现了对匙孔熔透特征数据的精准提取和最大化增强。试验结果表明,基于多种光谱及光学处理技术复合应用的大功率固体激光焊熔透特征同轴增效提取方法对激光熔透特征信号增强效果显著,可作为一种新型的高功率激光焊接熔透在线检测手段。