Study of LMD of Inconel 718 on Inclined Planes: Influence of Inclination on Width and Height of Deposited Material

M. Bold, J. Zielinski, S. Ziegler, J. Schleifenbaum
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引用次数: 1

Abstract

Laser Metal Deposition (LMD) as a repair technology has been established in recent times. A commonly used material for repairs of turbines are nickel-base alloys, such as Inconel 718 (IN718), which presents good mechanical properties at temperatures up to 650 °C and good corrosive resistance. Inclined or curved surfaces pose a challenge in repairing parts with LMD due to the dependence of height and width of deposited tracks on the local inclination angle. An extensive preparation on path planning is needed to prevent bond defects and to achieve good mechanical properties. The aim of this study is to gain a better understanding of the influence of the local angle between laser beam and component surface on the track geometry. In a first step, single tracks are deposited at various inclinations and process strategies. The track geometries are then evaluated by optical profilometry and metallographic analyses. In a second step, single layers consisting of overlapping tracks are deposited onto different inclined plates, and the welding strategy is varied as follows: a) horizontal overlapping tracks starting from the top going down, b) horizontal overlapping tracks starting from the bottom going up, c) overlapping tracks going up and down. The single layers are analysed metallographically to determine the influence of inclination angle and deposition strategy on the layer height. Furthermore, the influence of inclination on dilution of the base material and on defects such as pores and bonding defects is investigated. By studying the basis of LMD on inclined surfaces, the results presented in this paper help to improve and accelerate path planning for repairs by LMD on freeform surfaces and to design tool paths for the deposition of layers with uniform thickness.
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斜面上Inconel 718的LMD研究:倾角对沉积材料宽度和高度的影响
激光金属沉积(LMD)是近年来建立起来的一种修复技术。用于涡轮机维修的常用材料是镍基合金,例如Inconel 718 (IN718),它在高达650°C的温度下具有良好的机械性能和良好的耐腐蚀性。由于沉积轨迹的高度和宽度与局部倾斜角的关系,倾斜或弯曲的表面对LMD修复零件构成了挑战。为了防止粘结缺陷和获得良好的力学性能,需要进行大量的路径规划准备。本研究的目的是为了更好地了解激光束与部件表面之间的局部夹角对轨道几何形状的影响。在第一步,单轨道沉积在不同的倾斜度和工艺策略。然后通过光学轮廓术和金相分析来评估轨道的几何形状。第二步,将由重叠轨迹组成的单层沉积在不同的倾斜板上,焊接策略如下:a)从顶部开始向下的水平重叠轨迹,b)从底部开始向上的水平重叠轨迹,c)上下重叠轨迹。对单层进行了金相分析,确定了倾角和沉积方式对层高的影响。此外,还研究了倾角对基材稀释度和气孔、粘结缺陷等缺陷的影响。通过研究倾斜曲面上LMD的基础,本文的研究结果有助于改进和加快自由曲面上LMD修复的路径规划,以及设计均匀厚度层沉积的刀具路径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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