| METALS AND METAL MATRIX COMPOSITES |
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| New Characteristics of Welding Materials During Intelligent Manufacturing |
| QIN Jian1,2, LYU Xianming3, SI Hao1, SONG Ya'nan3, SUN Huawei3, LONG Weimin1,3
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1 State Key Laboratory of Advanced Brazing Filler Metals & Technology, Zhengzhou Research Institute of Mechanical Engineering Co., Ltd., Zhengzhou 450001, China
2 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100000,China
3 China Innovation Academy of Intelligent Equipment (Ningbo) Co., Ltd., Ningbo 315700, Zhejiang, China |
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Abstract Manufacturing industry is the main force supporting national economy and promoting upgrading of industrial quality and efficiency. At present, the world's manufacturing industry is transforming to intelligent manufacturing, industrial powers have successively proposed development plans to face the new competition of the industrial revolution, such as“Strategy for American Leadership in Advanced Manufacturing”, “Industry 4.0”and “Intelligent Manufacturing System”. In China, the government also put forward a long-term plan to implement the strategy of manufacturing power. The plan points out that it is necessary to promote the innovation of the manufacturing industry, clarify the main direction of Intelligent manufacturing, and boost Intelligent manufacturing industry move from simple integration to high-end customization. Welding technology is important processing method in manufacturing industry. Intelligent welding technology is the main direction of intelligent manufacturing development and has become the key factor in strengthening industrial optimization and improving the level of intelligent manufacturing. Although new intelligent welding technologies are constantly emerging under the impetus of intelligent manufacturing, welding materials will always play the key role in welding processing. Intelligent welding puts forward new demands on welding materials. Therefore, the R&D of welding materials is facing new challenges. The promotion and application of high-quality and efficient intelligent welding technology asked us continuously improving the quality of welding materials and giving them new characteristics. In this article, the authors discuss the research status of welding automation and intelligence in the context of intelligent manufacturing, sorts out the matching relationship between welding scene and welding materials, summarizes the characteristics that the new generation of welding materials should have, and proposes the new elements of welding materials quality evaluation. At the end, the article summarizes the new challenges of welding materials manufacturing technology under the background of intelligent manufacturing and put forward prospects for the development of welding consumables in the future.
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Published: 10 June 2023
Online: 2023-06-19
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| Fund:National Key Research and Development Program of China (2020YFB2008402), National Natural Science Foundation of China(U2004186), Zhengzhou Major Science and Technology Innovation Project(2020CXZX0060), Ningbo Major Science and Technology Innovation 2025 Project(2020Z111). |
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1 He P, Zhang L. Transaction of the China Welding Institution, 2017, 38(4), 124 (in Chinese).
何鹏, 张玲. 焊接学报, 2017, 38(4), 124.
2 Guo Y, Wang N, Xu Z Y, et al. Mechanical Systems and Signal Processing, 2020(142), 106.
3 Kou Y, Chen H, Zhou Y. Computers & Electrical Engineering, 2021,93,107.
4 Xie Y, Liu Z H, Wu H C. Ordnance Industry Automation, 2017, 36(2), 1 (in Chinese).
谢勇, 刘治红, 吴宏超.兵工自动化, 2017, 36(2), 1.
5 Wang B, Hu S J, Sun L, et al. Journal of Manufacturing Systems, 2020,56, 373.
6 Rishikesh M, Jagan A, Pavithran L, et al. Materials Today: Procee-dings, 2021,46, 7402.
7 Wang B, Hu S J, Sun L, et al. Journal of Manufacturing Systems, 2020, 56, 321
8 Zhou J, Zhou Y H, Wang B C, et al. Engineering, 2019, 5(4), 71.
9 Zhou J, Li P, Zhou Y, et al. Engineering, 2018, 4(1), 1141.
10 Kagermann H, Wahlster W, Helbig J, et al. Recommendations for Implementing the Strategic Initiative INDUSTRIE 4.0. Final Report of the Industrie 4.0 Working Group. Acatech-National Academy of Science and Engineering, 2013.
11 Pan Y. Engineering, 2016, 2(4), 1025.
12 Goncalves L F, Duarete F M, Martins C I, et al. Infrared Physics & Technology, 2021, 119, 103931.
13 Li J, Meng X, Wan L, et al. Journal of Manufacturing Processes, 2021, 68, 293.
14 He P, Lin P P. Materials Reports, 2019, 33(1), 156 (in Chinese).
何鹏, 林盼盼.材料导报, 2019, 33(1), 156.
15 Zhang H T, He P, Kong Q W, et al. Welding & Joining, 2006(12), 7 (in Chinese).
张洪涛, 何鹏, 孔庆伟,等. 焊接, 2006(12), 7.
16 M A, Vemulapalli C D, Cheepu M. Materials Today: Proceedings, 2022, 52, 1314.
17 Raja R, Parthiban A, Jeyakumar, et al. Materials Today: Proceedings, 2021, 60, 1421.
18 Yi X, Du Y, Li Y, et al. Fusion Engineering and Design, 2021, 169, 112620.
19 Jafari A, Sadeghianjahromi A, Wang C C. Applied Thermal Engineering, 2022, 200, 117694.
20 Lee M K, Park J J, Lee J G, et al. Journal of Nuclear Materials, 2013, 439(1), 168.
21 Yue J F, Li L Y, Jiang X D, et al. China Mechanical Engineering, 2012, 23(10), 1256 (in Chinese).
岳建锋, 李亮玉, 姜旭东,等. 中国机械工程, 2012, 23(10), 1256.
22 Hui L Z, Chang J W, Xue M Y, et al. Natural Gas Industry B, 2014, 1(1), 113.
23 Huang J X, Xu H J, Liu H L,et al. China Petroleum Machinery, 2013, 41(4), 55(in Chinese).
黄建勋, 徐红九, 刘宏亮,等. 石油机械, 2013, 41(4), 55.
24 Yang Y, Li W, Xu T, et al. Journal of Constructional Steel Research, 2021, 187, 106990.
25 Seo W G, Suh J Y, Singh A, et al. Materials Science and Engineering: A, 2021, 821, 141614.
26 Sedmak A, Hemer A, Sedmark S A, et al. International Journal of Fatigue, 2021, 150, 106298.
27 Liu J, Li S, Han Z, et al. Materials Chemistry and Physics, 2021, 257, 123753.
28 Qiu D L, Gao S D, Lu G P, et al. Electric Welding Machine, 2008(4), 26 (in Chinese).
邱德隆, 高树栋, 芦广平,等. 电焊机, 2008(4), 26.
29 Zafra A, álvarez G, Belzunce J, et al. Engineering Fracture Mechanics, 2021, 241, 107433.
30 Boronski D, Kotyk M, Mackowiak P, et al. Materials & Design, 2017, 133, 390.
31 Qiu Z S, Liu M, Kuang Y J,et al. Welding & Joining, 2016(12), 13(in Chinese).
邱振生, 柳猛, 匡艳军,等. 焊接, 2016(12), 13.
32 Silva C M, Leonard K J, Garrison L M, et al. Materials Science and Engineering: A, 2021, 823, 141780.
33 Yan T F, Wang G Z, Wang K, et al. International Journal of Pressure Vessels and Piping, 2021, 194, 104554.
34 Guo S, Xu D, Li Y, et al. The Journal of Supercritical Fluids, 2021, 170, 105138.
35 Menezes P H R, Pessoa E C P, Bracarense A Q. Journal of Materials Processing Technology, 2019, 266, 63.
36 Liu X, Dong Q, Wang P, et al. Optik, 2021, 225, 165720.
37 Liu Z H, Zeng P F, Li X N. Electric Welding Machine, 2006(7), 1 (in Chinese).
刘占户, 曾鹏飞, 李晓娜.电焊机, 2006(7), 1.
38 Zhang Y, Jiang X, Fang Y, et al. Materials Today Communications, 2021, 28, 102503.
39 He S,Chu J J, Qi W L. Welding & Joining, 2015(12), 1 (in Chinese).
何实, 储继君, 齐万利.焊接, 2015(12), 1.
40 Li C, Huang C, Chen L, et al. International Journal of Refractory Metals and Hard Materials, 2019, 85, 105049.
41 Hou J, Li R, Xu C, et al. Journal of Manufacturing Processes, 2021, 68, 657.
42 Blunt J, Balchin N C. Health and safety in welding and allied processes.Woodhead Publishing, 2002.
43 Nedoseka A Y,Fomichev S K,Veligin V A. NDT & E International, 1996, 29(2), 121.
44 Chen J, Su J H,Zhang H W. Welding & Joining, 2017(2), 1(in Chinese).
陈健, 苏金花, 张汇文.焊接, 2017(2), 1.
45 Xue S B,Wang B, Zhang L, et al. Materials Reports, 2019, 33(17), 2813(in Chinese).
薛松柏, 王博, 张亮,等. 材料导报, 2019, 33(17), 2813.
46 Li X Y, Wu C S, Li W S. Journal of Mechanical Engineering, 2012, 48(6), 19 (in Chinese).
李晓延, 武传松, 李午申.机械工程学报, 2012, 48(6), 19.
47 Yang W Z. Petrochemical Industry Technology, 2015, 22(7), 108 (in Chinese).
杨文忠.石化技术, 2015, 22(7), 108. |
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2023, Vol. 37 
