[1]董智龙,彭丽雯,侯军才,等.激光功率对3/4H SUS301和SUS316异种不锈钢激光点焊成形特征及组织性能的影响[J].焊管,2024,47(5):33-39.[doi:10.19291/j.cnki.1001-3938.2024.05.005]
 DONG Zhilong,PENG Liwen,HOU Juncai,et al.Effect of Laser Power on Laser Spot Welding Forming Characteristics and Microstructure Properties of 3/4H SUS301 and SUS316 Dissimilar Stainless Steel Laser Spot Welding Joints[J].,2024,47(5):33-39.[doi:10.19291/j.cnki.1001-3938.2024.05.005]
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激光功率对3/4H SUS301和SUS316异种不锈钢激光点焊成形特征及组织性能的影响()
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
47
期数:
2024年第5期
页码:
33-39
栏目:
试验与研究
出版日期:
2024-05-28

文章信息/Info

Title:
Effect of Laser Power on Laser Spot Welding Forming Characteristics and Microstructure Properties of 3/4H SUS301 and SUS316 Dissimilar Stainless Steel Laser Spot Welding Joints
文章编号:
10.19291/j.cnki.1001-3938.2024.05.005
作者:
董智龙彭丽雯侯军才张秋美张会
陕西理工大学 材料科学与工程学院, 陕西 汉中 723001
Author(s):
DONG ZhilongPENG LiwenHOU JuncaiZHANG QiumeiZHANG Hui
School of Materials Science and Engineering, Shaanxi University of Technology, Hanzhong 723001, Shaanxi, China
关键词:
激光焊接点焊晶粒形态气孔缺陷显微组织
Keywords:
laser weldingspot weldinggrain shapeporosity defectmicrostructure
分类号:
TG146.2
DOI:
10.19291/j.cnki.1001-3938.2024.05.005
文献标志码:
A
摘要:
采用准连续激光器对测力传感器的3/4H SUS301弹性体和SUS316支撑体进行异种不锈钢激光焊接,探讨了激光功率对点焊接头成形特征和力学性能的影响。研究表明,采用准连续激光模式,在脉冲时间为2 ms、激光功率为180 W至270 W范围内,弹性体焊后的角变形量随着激光功率的增大而增大,激光功率为270 W时弹性体焊后的角变形远低于传感器容许的变形量。当激光功率为210 W时,在焊接界面处产生气孔缺陷,焊接功率增大至270 W时,在匙孔底部形成严重的气孔缺陷。焊缝内部以胞状晶方式生长,从熔合区两侧向焊缝中心生长为粗大的柱状晶,焊缝中心为等轴状的树枝晶,随着激光功率的增大,等轴晶区域的宽度减小。焊缝区承受较高的焊接热量使得焊缝区内形变组织发生不完全再结晶,致使形变诱发马氏体相变被抑制,α’马氏体含量降低。点焊接头的剪切力随着激光功率先增大后减小,当激光功率为250 W时,接头的剪切力达到最大值0.49 kN,远高于行业要求。
Abstract:
Dissimilar metal laser welding was carried out between 3/4H SUS301 and SUS316 stainless steel which were acted as elastomer and support body of force measuring sensors by using quasi-continuous wave laser. The effect of laser power on the influence of forming characteristics and mechanical properties of the spot welded joint was investigated. It was shown that angle distortion was increased with an increase of laser power when a quasi-continuous laser was adopted of which the laser power was varied from 180~270 W with a regular pulse time of 2 ms. And the angle distortion was much lower than the allowable deformation of the force measuring sensor when the laser power of 270 W was applied. Porosity defects were detected on the interface of the spot weld under a lower laser power of 210 W and it was formed again in the bottom zone of the keyhole of the spot welded joint when a higher laser power of 270 W or above was used. For the grain shape of the sopt welded joint, celluar crystals grew from the both sides of fusion area to the weld center resulting in growing into columnar crystal. And equiaxed dendrites was formed in the center zone of the spot welded joint. The width of exquixed crystal region was decreased with an increase of laser power. Incomplete recrystallization occurred in the deformed structure due to its exposure to a higher temperature in the spot weld resulting in inducing a inhibition of the deformation induced martensitic transformation. Hereby, the composition of α’ martensitic was decreased. Shear strength of the spot weld joint was increased and then was decreased with an incrase of laser power. The maximum shear strength of the spot weld joint reached to 0.49 kN which was much higher than the industry standard when a laser power of 250 W was applied.

参考文献/References:

1、卜哲涵.车用301L不锈钢腐蚀和力学性能研究【D】.兰州:兰州理工大学,2021.

2、孙朝,许世涛,雷文,等.SUS301L不锈钢激光焊研究现状【J】.热加工工艺,2020,49(1):1-7.
3、李佶,黎向锋,陈冠宇,等.不同厚度3/4硬301型不锈钢带材双轴柔性滚弯成形性能研究【J】.现代制造工程,2017(2):87-92.
4、严亚子.多绳摩擦提升钢丝绳动张力在线监测系统研究【D】.淮南:安徽理工大学,2014.
5、张新董.以疲劳性能为主导的测力传感器结构设计与实验研究【D】.沈阳:东北大学,2017.
6、许文宣,李一峰,孟繁星.浅谈测力传感器设计的应力集中原则【J】.中国新技术新产品,2009,31(11):80-80.
7、王丽娟,牛瑞利.不锈钢激光点焊接头组织和力学性能研究【J】.精密成形工程,2022,14(10):120-125.
8、陶汪,陈彦宾,李俐群,等.304不锈钢激光点焊工艺研究【J】.应用激光,2005,25(4):233-236.
9、简弃非,曹颂阳,赵晶,等.不锈钢薄板激光点焊工艺对金相组织的影响分析【J】.江西师范大学学报(自然版),2018,42(4):336-341.
10、韩潇潇.铝合金负压激光焊熔深增强机制与气孔缺陷抑制机理研究【D】.上海:上海交通大学,2019.
11、黄立进.铝合金激光焊及激光-GMAW复合焊气孔形成机理与抑制方法研究【D】.上海:上海交通大学,2018.
12、吴世彪.SUS301L奥氏体不锈钢激光填丝焊工艺与接头性能研究【D】.长春:吉林大学,2019.
13、LIPPOLD J C,KOTECKI D C,陈剑虹.不锈钢焊接冶金学及焊接性【M】.北京:机械工业出版社,2008.

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备注/Memo

备注/Memo:
收稿日期:2024-04-11
基金项目:陕西省科技厅攻关项目“传感器用 FeCrCoW 高电阻合金的开发应用”(项目编号 2024GX-YBXM-376);
陕西理工大学大创项目 (项目编号 202310720141)。
作者简介:董智龙 (1999—),男,硕士研究生,主要研究方向为测力传感器设计及其连接技术。
通讯作者: 侯军才 (1980—),男,博士,副教授,主要从事绿色微连接与电子封装浆料和连接技术方面的研究工作。
更新日期/Last Update: 2024-05-29