复合涂层的激光熔覆研究

A. Lisiecki
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引用次数: 1

摘要

由于热输入有限,激光熔覆通常用于制造保护涂层。热条件是决定性的微观结构,从而性能。本研究采用添加WC颗粒的ni基粉末与TruDisk 3302激光器进行激光熔覆。在不同的能量输入下进行测试(不考虑传热效率)。通过设置在熔池前的单个同轴喷嘴,将粉末直接送入熔池。确定了激光熔覆基本参数对熔覆层几何形貌、显微组织和硬度的影响。激光熔覆的热输入对熔覆材料的化学成分、物相组成和显微组织有显著影响。所得涂层具有典型的NiCr金属基体和WC碳化物复合结构。较低的能量输入有利于提供有限的渗透深度,稀释和良好的分布和高碳化钨的份额。然而,在所选择的技术条件下,过低的能量输入将导致聚变的缺乏。在最小热输入条件下,涂层截面上碳化物的比例大于50%,而在最大热输入条件下,涂层截面上碳化物的比例低于20%。
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STUDY OF LASER CLADDING OF COMPOSITE COATINGS
Laser cladding is often used for manufacturing of protective coatings due to limited heat input. The thermal conditions are decisive for the microstructure and thus the properties. In this study Ni-based powder with addition of WC particles was used laser cladding with the TruDisk 3302 laser. Tests were conducted at different energy input (heat transfer efficiency not considered). Powder was fed directly into the melt pool by a single coaxial nozzle set in front of the melt pool. The influence of basic laser cladding parameters on the geometry, microstructure and hardness was determined. The heat input of laser cladding has significant effect on chemical and phase composition, as well as microstructure. The obtained coatings have typical composite structure with NiCr metallic matrix and WC carbides. The lower energy input of laser cladding is beneficial providing limited penetration depth, dilution, and preferable distribution and high share of tungsten carbides. However, too low energy input at the chosen technological conditions will lead to the lack of fusion. The share of carbides on cross section of the coatings produced at minimum heat input is over 50%, while for the maximum heat input the share is below 20%.
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来源期刊
International Journal of Modern Manufacturing Technologies
International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering
CiteScore
0.70
自引率
0.00%
发文量
15
期刊介绍: The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.
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