Coaxial Laser Wire Deposition of AISI 316L steel - research on influence of processing parameters

Piotr Koruba, Przemysław Radkiewicz, Jakub Kędzia, Robert Dziedzic, Piotr Smuga, Jacek Reiner
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Abstract

Laser cladding technology is a well-established process, commonly used for deposition of improved-property coatings, repair of machine parts and additive manufacturing. Currently, in terms of application of laser cladding, the method based on powder deposition is much more common, as the use of an adapted nozzle allows the coaxial and direction-independent feeding of additional material into the weld pool. However, laser cladding with powder also has some significant drawbacks, e.g., limited powder feeding and melting efficiency, lower productivity and the resulting dust that poses a health risk to operators. The solution to these limitations is the use of additional material in the form of wire. To maintain the ability to coaxially feed the wire to the laser beam interaction point, a specialized cladding head is necessary. In mentioned system the laser beam, while being passed through the optical system, is divided into three separate beams that are focused on the substrate on the working point of the head. In this study, the COAXwire cladding head was integrated into the robot station and laser cladding process was carried out to determine the influence of the processing parameters on the deposition results. The parameters of the cladding system were identified, including the measurement of laser beam caustic. The experimental trials were carried out using AISI 316L wire deposited on S420MC substrate. The effect of the processing parameters on the geometry of the clad was determined with particular emphasis on the wire feeding.
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AISI 316L钢同轴激光熔丝工艺参数影响的研究
激光熔覆技术是一种成熟的工艺,通常用于增强涂层的沉积,机械零件的修复和增材制造。目前,在激光熔覆的应用方面,基于粉末沉积的方法更为常见,因为使用一个适应的喷嘴允许同轴和方向无关的额外材料进入焊接池。然而,粉末激光熔覆也有一些明显的缺点,例如,有限的粉末进料和熔化效率,较低的生产率和由此产生的粉尘对操作员构成健康风险。解决这些限制的方法是以线材的形式使用额外的材料。为了保持导线同轴馈送到激光束相互作用点的能力,需要一个专门的包层头。在上述系统中,激光束在通过光学系统时被分成三个独立的光束,这些光束聚焦在头部工作点上的基板上。本研究将COAXwire熔覆头集成到机器人工位中,进行激光熔覆工艺,以确定工艺参数对沉积结果的影响。确定了熔覆系统的参数,并进行了激光焦散度的测量。采用aisi316l丝沉积在S420MC衬底上进行了实验试验。确定了工艺参数对包层几何形状的影响,特别强调了送丝。
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