MODE INFLUENCE OF SELECTIVE LASER IMPACT UPON POROSITY OF SAMPLES OF COBALT, CHROMIUM AND MOLYBDENUM POWDERS

N. Saprykina, A. Saprykin, E. Ibragimov, M. Himich
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Abstract

The purpose of this investigation consists in the analysis of possibility to obtain products by means of the SLP method using powders of cobalt, chromium and molybdenum having considerable difference in melting temperatures of cobalt (1768ºC), chromium (2130ºC) and molybdenum (2890ºC), density, thermal conduction and solving for the optimum technological modes of powder composition melting to obtain samples with lower porosity. The investigation methods include methods of physical material science. Investigation results and novelty: a procedure for obtaining a powder composite of the cobalt-chromium-molybdenum system for selective laser melting is developed. There are carried out experimental investigations on the selection of optimum technological modes for the layer-by-layer laser melting of a cobalt-chromium-molybdenum alloy of powder composition. A method for layer-by-layer laser synthesis for the solution of a principle matter – possibility for the synthesis of the products of cobalt chromium and molybdenum powders having a considerable difference in melting temperatures, density, heat conductivity and so on. The investigations of model alloy samples of cobalt-chromuim-molybdenum system obtained through the method of layer-by-layer laser synthesis on optimized technological modes through the methods of scanning electronic microscopy allow defining sample porosity. The generalization of obtained numerical and experimental investigation results and definition of essential conditions for selective laser melting allow optimizing modes and parameters of the synthesis. Conclusions: the optimum modes of selective laser melting for obtaining the samples with the powder composition of 66 mas. % Co, 28 mas. % Cr, 6 mas.% Mo through the method of selective laser melting with minimum porosity are: laser capacity P=100Wt, scanning rate v=350mm/s, modulation 5000Hz, scanning pitch s=0.1mm, layer thickness h=0.03mm, melting process takes place in protective argon environment.
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选择性激光冲击对钴、铬、钼粉末样品孔隙率的模式影响
本研究的目的在于分析利用钴、铬、钼在熔点(1768ºC)、铬(2130ºC)、钼(2890ºC)、密度、热传导等方面存在较大差异的粉末,通过SLP法获得产品的可能性,并求解粉末成分熔化的最佳工艺模式,以获得孔隙率较低的样品。研究方法包括物理材料科学方法。研究结果与新创性:提出了一种制备钴铬钼选择性激光熔化粉末复合材料的方法。对粉末成分钴铬钼合金逐层激光熔化的最佳工艺模式的选择进行了实验研究。一种逐层激光合成一种主要物质溶液的方法-合成在熔化温度、密度、导热性等方面有较大差异的钴、铬和钼粉末的可能性。在优化的工艺模式下,通过扫描电镜的方法,对钴-铬-钼体系的模型合金样品进行了逐层激光合成的研究,确定了样品的孔隙率。对所获得的数值和实验研究结果进行了推广,并确定了选择性激光熔化的基本条件,从而优化了合成的模式和参数。结论:选择激光熔化的最佳模式可获得粉末成分为66 mas的样品。% Co, 28 mas。% Cr, 6ma。% Mo通过选择性激光熔化的方法最小孔隙率为:激光容量P=100Wt,扫描速率v=350mm/s,调制5000Hz,扫描间距s=0.1mm,层厚h=0.03mm,熔化过程在保护氩环境下进行。
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