Laser stereolithography by multilayer cladding of metal powders

GR-I International Conference on New Laser Technologies and Applications Pub Date : 1998-07-14 DOI:10.1117/12.316613

R. Jendrzejewski, G. Rabczuk, R. Zaremba, G. Śliwiński

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引用次数: 2

Abstract

3D-structures obtained by means of laser cladding of the metal alloy powders: bronze B10 and stellite 6 and the process parameters are studied experimentally. The structures are made trace-on-trace by remelting of the metal powder injected into the focusing region of the 1.2 kW CO2 laser beam. For the powder and sample feeding rates of 8-22 g/min and 0.4-1.2 m/min, respectively, and the applied beam intensities not exceeding 2 X 105 W cm-2 the process is stable and regular traces connected via fusion zones are produced for each material. The thickness of these zones does not exceed several per cent of the layer height. The process results in the efficient formation of multilayer structures. From their geometry the effect of energy coupling and interaction parameters are deduced. Moreover, the microanalysis by means of SEM- and optical photographs of samples produced under different experimental conditions confirms the expected mechanical properties, low porosity and highly homogenous structure of the multilayers. In addition to the known material stellite 6 the bronze B10 is originally proposed for a rapid prototyping.

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金属粉末多层熔覆激光立体光刻技术

对铜B10和钨铬钴合金粉末激光熔覆获得的三维结构及其工艺参数进行了实验研究。通过将金属粉末注入到1.2 kW CO2激光束的聚焦区域中进行重熔，制备出痕量对痕量的结构。当粉末和样品的进料速率分别为8- 22g /min和0.4-1.2 m/min，施加的光束强度不超过2 X 105w cm-2时，该过程是稳定的，并且每种材料都产生了通过熔合区连接的规则痕迹。这些带的厚度不超过层高的百分之几。该过程导致多层结构的有效形成。从它们的几何形状出发，推导了能量耦合和相互作用参数的影响。此外，通过不同实验条件下样品的SEM和光学照片进行微观分析，证实了多层材料的预期力学性能、低孔隙率和高度均匀的结构。除了已知材料钨铬钴合金6外，青铜B10最初被提议用于快速原型设计。

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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GR-I International Conference on New Laser Technologies and Applications

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