CAP1400核电站空气导流板用铝合金自动MIG焊设备的研发
Research and Development of Aluminum Alloy Automatic MIG Welding Equipment for Air Guide Plate of CAP1400 Nuclear Power Station
- 2022年52卷第8期 页码:65-71
DOI: 10.7512/j.issn.1001-2303.2022.08.09
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刘伟,孟超.CAP1400核电站空气导流板用铝合金自动MIG焊设备的研发[J].电焊机,2022,52(8):65-71.
LIU Wei, MENG Chao.Research and Development of Aluminum Alloy Automatic MIG Welding Equipment for Air Guide Plate of CAP1400 Nuclear Power Station[J].Electric Welding Machine, 2022, 52(8): 65-71.
为解决空气导流板产品传统手工MIG焊接存在的焊接质量差、焊接效率低下以及铝合金焊接给施焊人员带来的危害问题,针对第三代CAP1400核电站空气导流板产品进行了介绍,根据目前国内企业制造铝合金自动焊接工艺的实际使用情况进行了分析,评估了CAP1400核电站空气导流板使用铝合金自动焊接工艺的可行性,根据实际的焊接要求、焊接试验数据以及具体的生产条件,开发了一种适于空气导流板用铝合金焊接的智能化设备及新工艺,通过使用自动焊设备代替人工作业,改善了人工作业环境,极大地提高了空气导流板产品的焊接质量和生产效率,以确保核电装备的顺利运行与长期服役。可为后续的铝合金相关结构的核电关键零部件的制备提供参考。
In order to solve the problems of poor welding quality and low welding efficiency of traditional manual MIG welding of air deflector products and the harm caused by aluminum alloy welding to the welding personnel, the air deflector products of the third generation CAP1400 nuclear power station are introduced and analyzed according to the actual use of aluminum alloy automatic welding process in domestic enterprises. The feasibility of using the aluminum alloy automatic welding process for the air deflector of CAP1400 nuclear power station is evaluated. According to the actual welding requirements, welding test data and specific production conditions, an intelligent equipment and new process suitable for the aluminum alloy welding for the air deflector are developed. The welding quality and production efficiency of the air deflector products are greatly improved to ensure the smooth operation and long-term service of nuclear power equipment. It can provide a reference for the subsequent preparation of nuclear power key parts of aluminum alloy related structures.
铝合金焊接焊接机器人自动MIG焊设备焊接变位机焊接变形
aluminum alloy weldingwelding robotautomatic welding processwelding deformation
温涛. 5454铝合金在化工热交换器中的应用[J]. 特种铸造及有色合金,2000(6):64-65.
WEN Tao. Application of 5454 aluminum alloy in chemical heat exchanger[J].Special Casting & Nonferrous Alloys,2000(6):64-65.
刘志平,胡文浩,刘春宁,等.高速动车组铝合金车体自动焊接工艺研究[J].金属锻造焊技术,2012(7): 124-127.
LIU Zhiping,HU Wenhao,LIU Chunning,et al.Research on Automatic Welding Technology of High Speed Railway Vehicles[J]. Hot Working Technology,2012(7):124-127.
李会,郭继祥, 何小勃,等.铝合金MIG焊常见焊接缺陷分析及预防措施[J].电焊机,2013,43(4):72-76.
LI Hui,GUO Jixiang,HE Xiaobo,et al.Reason analysis and precautionary measure on MIG weld defect of Aluminium alloy[J]. Electric Welding Machine,2013,43(4):72-76.
梁卫东,石玗, 张玉耀,等.铝合金MIG焊过程中的烟尘危害和防护[J].电焊机,2006,36(7):67-69.
LIANG Weidong,SHI Yu,ZHANG Yuyao,et al. Fume harm and its protection in aluminum alloy MIG welding process[J]. Electric Welding Machine,2006,36(7):67-69.
刘伟,张洪涛, 阳作勇,等.狭长空间自动角焊小车的研制与应用[J]. 焊接技术, 2020, 49(05): 97-100.
LIU Wei,ZHANG Hongtao,YANG Zuoyong,et al.Research and application of automatic fillet welding vehicle in long and narrow space[J]. Welding Technology, 2020, 49(05): 97-100.
刘伟,杨晓禹,刘秀荣,等.CAP1400钢制安全壳插入板组件自动焊工艺研究[J]. 铸造技术, 2018(4):879-881.
LIU Wei,YANG Xiaoyu,LIU Xiurong,et al.Study on the Automatic Welding Process of CAP1400 Insert-plate and Penetration Sleeves[J]. Foundry Technology,2018(4):879-881.
郭安庆,张洪逵,满春水,等. A06N01S铝合金型材自动焊接技术研究[A]. 先进的汽车及轨道交通焊接论坛论文集[C]. 北京,2013.
中国机械工程学会焊接学会. 焊接手册(第2卷)[M].北京: 机械工业出版社,2001: 154-166.
彭云. 铝合金焊接结晶裂纹的防止[J]. 焊接, 1995(1): 2-4.
PENG Yun. Prevention of Crystallization Cracking From Aluminium Alloy Weld Metal[J]. Welding & Joining,1995(1): 2-4.
疏达,孙宝德,王俊,等.铝合金中气孔的形核机理[J]. 铸造工程, 1998, 22(1-2): 49-52.
SHU Da,SUN Baode,WANG Jun,et al.Nucleation mechanism of pores in aluminum alloy[J]. Foundry Engineering, 1998, 22(1-2): 49-52.
刘振忠. 多轴联动系统的运动规划与结构变形补偿[D]. 天津:天津大学,2012.
LIU Zhenzhong. Motion Planning and Structural Deformation Compensation of Multi-axis System[D]. Tianjin:Tianjin University, 2012.
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