文章摘要
吕蒙,张嘉,郭海伟,等.激光功率对205B铝合金激光-CMT复合增材组织及性能的影响[J].精密成形工程,2024,16(8):111-120.
LYU Meng,ZHANG Jia,GUO Haiwei,et al.Effect of Laser Power on Microstructure and Properties of 205B Aluminum Alloy Laser-CMT Composite Additive Manufacturing[J].Journal of Netshape Forming Engineering,2024,16(8):111-120.
激光功率对205B铝合金激光-CMT复合增材组织及性能的影响
Effect of Laser Power on Microstructure and Properties of 205B Aluminum Alloy Laser-CMT Composite Additive Manufacturing
投稿时间:2024-01-14  
DOI:10.3969/j.issn.1674-6457.2024.08.013
中文关键词: 205B铝合金  激光-CMT复合增材  激光功率  细晶带  各向异性
英文关键词: 205B aluminum alloy  laser-CMT composite additive  laser power  fine grained band  anisotropy
基金项目:河南省科技攻关项目(232102231011);河南省教育厅高等学校重点科研项目(23B430016);河南省科技攻关项目(222102230025)
作者单位
吕蒙 郑州铁路职业技术学院 机电工程学院郑州 450000
郑州市先进功能材料重点实验室郑州 450000 
张嘉 郑州铁路职业技术学院 机电工程学院郑州 450000 
郭海伟 郑州铁路职业技术学院 机电工程学院郑州 450000
郑州市先进功能材料重点实验室郑州 450000 
杨丰豪 中铝郑州有色金属研究院有限公司郑州 450000 
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中文摘要:
      目的 针对传统增材技术造成的205B铝合金组织均匀性差、气孔率高、强度低等问题,选用激光-电弧(CMT)复合增材技术为研究方法,探究激光功率对其组织均匀性和性能的影响规律。方法 采用激光-电弧(CMT)复合增材技术实现了205B铝合金增材成形件的良好成形,并利用现代分析技术对材料的宏微观组织形貌、第二相分布、气孔、物相组成、显微硬度及拉伸强度进行表征。结果 成形件中部区域呈现“凹弧形”层状结构特征且存在一定程度的组织不均匀性和各类气孔。激光功率对材料层间和层内宏微观组织及第二相分布有显著影响,当激光功率增加至1 800 W及以上时,层间“细晶带”特征明显且柱状晶组织逐渐消失。当激光功率为1 600 W时,材料获得了最低的气孔率(0.85%),平均气孔直径为25.58 μm,平均气孔数量为32。材料具有典型的拉伸强度各向异性,当激光功率为1 600 W时,材料的横向拉伸强度和纵向拉伸强度均获得最大值,分别为265.65 MP和235.75 MPa。结论 通过调节激光功率能够在一定程度上解决材料组织不均匀的问题并减小气孔率,从而提高了成形件的力学性能。
英文摘要:
      The work aims to explore the effect of laser power on the microstructure uniformity and properties of 205 B aluminum alloy with laser-arc (CMT) composite additive technology as the research method to deal with problems of poor microstructure uniformity, high porosity and low strength caused by traditional additive technology of 205 B aluminum alloy. The laser-arc (CMT) composite additive technology was used to achieve good forming of 205B aluminum alloy additively formed parts, and modern analytical techniques were used to characterize the macroscopic organization and morphology of the material, the second direction distribution, the porosity, the composition of the physical phases, the microhardness and the tensile strength. The central region of the molded part showed a “concave-arc” layer structure with a certain degree of tissue inhomogeneity and various types of porosity. The laser power had a significant effect on the interlayer and intralayer macro-morphology and the distribution of the second phase. As the laser power increased to 1 800 W and above, the interlayer “fine grained band” was obvious and the columnar crystal organization disappeared gradually. The lowest porosity (0.85%), average pore diameter (25.58 μm), and average number of pores (32) were obtained at a laser power of 1 600 W. The material possesses typical tensile strength anisotropy, and the maximum values of transverse tensile strength and longitudinal tensile strength of the material were obtained at a laser power of 1 600 W, which were 265.65 MP and 235.75 MPa, respectively. By adjusting the laser power, it is possible to improve the problem of material organization inhomogeneity and reduce the porosity to a certain extent, thus improving its mechanical properties.
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