摘要
激光熔丝沉积技术是一种输送丝材并以激光为热源的定向能量沉积技术。为了探讨同轴熔丝过程的机理与效应,采用自主研发的激光内同轴送丝熔化沉积技术来分析研究基板受辐照比值对于熔丝过程稳定性的影响;借助高速相机拍摄并分析熔丝沉积过渡阶段机理;通过数学模型计算与实验验证的方式研究了熔丝沉积动态过程与工艺参数之间的关系。结果表明:较小的基板受辐照比值会引起“液滴”过渡熔丝行为,即处于稳定与不稳定的临界状态;而基板受辐照比值较大时会引起“液桥”过渡熔丝行为,即处于一个相对稳定的状态。本研究对激光熔丝沉积的动力学稳态性分析具有一定的指导意义。
Objective Laser wire-melting deposition is a directed energy deposition technology that uses the laser as a heat source to melt the wire materials.During the wire feeding and melting processes,the annular laser beam is blocked and separated by the central wire material.As a result,only part of the beam is irradiated onto the substrate.Therefore,research needs to be conducted to investigate the influences of the beam irradiation proportions of the wire and the substrate on the stability of laser coaxial wire-melting deposition.The mechanisms and effects of two different transition processes in wire-melting deposition,namely,"droplet"transition and"bead"transition,are analyzed and explained through the relationship between the laser irradiation proportions of the wire and the substrate.Methods To study and analyze the mechanism and effect of the laser coaxial wire-melting process,this paper explored the influence of the proportion of the laser energy absorbed by the substrate with a self-developed inside-laser coaxial wirefeeding processing head.The mechanism of the melting transition process was analyzed with a high-speed camera at 500 frame/s.In addition,the deposition process and the relationship between the dynamic process and the experimental parameters in the wire-melting deposition technology were studied by mathematical model calculation and experiment verification.Results and Discussions By geometric beam conversion,this paper obtained a mathematical model of the energy intensity of the annular laser beam in the negative defocus region(Fig.3).Laser irradiation(Fig.4)and the mathematical model of irradiation situation(Fig.5)were illustrated.The substrate irradiation proportion was defined and calculated.The energy distribution(Fig.6)in the irradiated area was obtained by combining the mathematical model and the shape form.Two types of transition processes in wire-melting deposition were photographed by a high-speed camera,and the irradiation proportion curves(Fig.8)were drawn to characterize the stability condition of wire-melting deposition.Conclusions According to the laser melting deposition experiment using the coaxial wire feeding technology,the substrate irradiation proportion,which is between 36% and 73%,increases as the defocusing amount increases.The wiremelting deposition process is closely related to the substrate irradiation proportion.Specifically,a small proportion will cause the"droplet"transition behavior that is in a critical state between stability and instability.The surface morphology of the melting track is discontinuous and droplet-like,and the intervals among the droplets increase as the proportion decreases.In contrast,a large proportion will lead to the"bead"transition behavior that is in a relatively stable state during the whole wire-melting process.The aspect ratio of the melting track is between 3.39 to 4.87.In the following laser wiremelting deposition experiment,a better melting track shape is achieved when the laser power is 3700 W,the wire-feeding speed is 25 mm·s^(-1),the scanning speed is 3 mm·s^(-1),and the defocusing amount is 4.5 mm.In this case,the substrate irradiation proportion is 71.8%.
作者
金磊
石世宏
魏超
曹浩
石拓
Jin Lei;Shi Shihong;Wei Chao;Cao hao;Shi Tuo(School of Mechanical and Electrical Engineering,Soochow University,Suzhou 215021,Jiangsu,China;School of Optoelectronic Science and Engineering,Soochow University,Suzhou 215006,Jiangsu,China)
出处
《光学学报》
EI
CAS
CSCD
北大核心
2023年第4期118-127,共10页
Acta Optica Sinica
基金
国家自然科学基金(62173239,61903268)。
关键词
激光光学
激光熔化沉积
光内同轴送丝
基板受辐照比值
过程稳定性
高速摄像
laser optics
laser melting deposition
inside-laser coaxial wire feeding
substrate irradiation proportion
process stability
high-speed photography