基于正交试验的34CrNiMo6钢激光成形工艺优化

时尚; 刘丰刚; 黄春平; 舒宗富

doi:10.15980/j.tzzz.2022.01.021

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基于正交试验的34CrNiMo6钢激光成形工艺优化
Optimum Parameters of Laser Forming of 34CrNiMo6 Steel Based on Orthogonal Experiment
2022年42卷第1期页码：104-109
纸质出版日期： 2022 ，
DOI： 10.15980/j.tzzz.2022.01.021

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时尚, 刘丰刚, 黄春平, 等. 基于正交试验的34CrNiMo6钢激光成形工艺优化[J]. 特种铸造及有色合金杂志, 2022,42(1):104-109.

Shi Shang, Liu Fenggang, Huang Chunping, et al. Optimum Parameters of Laser Forming of 34CrNiMo6 Steel Based on Orthogonal Experiment[J]. Special Casting & Nonferrous Alloys, 2022,42(1):104-109.
时尚, 刘丰刚, 黄春平, 等. 基于正交试验的34CrNiMo6钢激光成形工艺优化[J]. 特种铸造及有色合金杂志, 2022,42(1):104-109. DOI： 10.15980/j.tzzz.2022.01.021.

Shi Shang, Liu Fenggang, Huang Chunping, et al. Optimum Parameters of Laser Forming of 34CrNiMo6 Steel Based on Orthogonal Experiment[J]. Special Casting & Nonferrous Alloys, 2022,42(1):104-109. DOI： 10.15980/j.tzzz.2022.01.021.

摘要

三维实体沉积零件是通过单道熔覆层的多道搭接与多层累积实现

通过激光立体成形技术制备了34CrNiMo6钢单道1层、单道2层和单道5层沉积试样

以激光功率、扫描速度和送粉速率作为控制变量

沉积层厚度和横截面积为参考指标

研究了激光立体成形34CrNiMo6钢的工艺参数。结果表明

通过正交极差分析工艺参数对参考指标影响

发现工艺参数影响的主次顺序为:扫描速度>送粉速率>激光功率

正交试验得到的最佳工艺参数是激光功率为2 800 W、扫描速度为600 mm/min、送粉速率为15 g/min。随着沉积层数增加

单层熔覆沉积层的厚度逐渐增加

变化范围为0.125～0.156 mm。单层的沉积试样在不同工艺参数获得的热影响区最大硬度差别明显

而单道5层沉积试样中

沉积层表面硬度要高于靠近基材的热影响区硬度。

Abstract

Three-dimensional solid parts were prepared through multiple laps and multi layer accumulation of a single cladding layer. Single-pass 1-layer

single-pass 2-layer

and single-pass 5-layer deposition specimens of 34 CrNiMo6 steel were prepared by laser solid forming technology

and the process parameters of laser solid forming 34 CrNiMo6 steel were investigated with laser power

scanning speed and powder feeding rate as control variables and deposition layer thickness or cross-sectional area as reference indicators. The results indicate that through orthogonal and range analysis of the influence of the process parameters on the reference index

it is found that the factors of process parameters are in the order as follows: scanning rate>powder feeding rate>laser power. The optimal process parameter obtained by the orthogonal experiment is laser power of 2 800 W

scanning rate of 600 mm/min

and powder feeding rate of 15 g/min. With the increase in the number of deposited layers

thickness of the single-layer cladding deposited layer is gradually increased in the range of 0.125～0.156 mm. The maximum hardness of the heat-affected zone obtained by the single-pass 1-layer deposition specimen under different process parameters have obviously differences.In the single-pass 5-layer deposition specimen

the surface hardness of the deposition layer is higher than that of the heat-affected zone near the substrate.