This paper provides insight into the application of electron-beam welding in pellet mold preparation, highlighting the importance of the combination of electron-beam welding and pellet mold preparation in the fields of microstructure joining and micro- and nanostructure preparation. Precise material joining and microstructure fabrication can be achieved by the precise control of electron-beam welding and the shape adjustment of pellet molds. These applications hold significant potential in the modern industrial field, providing robust support for the development of new materials and the growth of the petrochemical industry. This paper asserts that in the future, the ongoing development of electron-beam welding and pelletizing template technology will unlock new possibilities in the field of petrochemicals, fostering progress in science and technology.
Zhang X, Li J, Tao M, et al., 2023, Organization and Mechanical Properties of Electron-Beam Welded Joints of New High-Strength Substable Beta Titanium Alloy. Foundry Technology, 44(05): 411–418.
Luo F, 2023, Effect of Welding Dust on Electron-Beam Welding and Solution Measures. Modern Information Technology, 7(10): 46–49+54.
Wang D, Li X, Zhang H, et al., 2007, Exploration and Analysis of the Reduction of Service Life of Plastic Pelletizing Template. Modern Plastics Processing Applications, 2007(05): 58–60.
Zhao J, Shi L, Lu Y, et al., 2023, Study on the Organization and Properties of Electron Beam Welded Joints Between Soft Magnetic Alloy Cr17NiTi and Stainless Steel 1Cr18Ni9Ti. Weapon Materials Science and Engineering, 46(02): 42–46.
Xu X, Ma Y, Li C, et al., 2022, Design Analysis and Development of Large-Scale Vacuum Electron Beam Welding Chamber. Mechanical Design and Manufacturing, 2022(11): 218–223.
Dai Y, Fang W, Peng H, et al., 2022, Effect of Pre-Welding Heat Treatment on the Organization and Properties of Electron Beam Welded Joints of 440 ?C Stainless Steel. Journal of Welding, 43(10): 63–70 + 117.
Xiong N, Zhang Y, Qiu X, et al., 2022, Study on the Organization and Properties of Molybdenum-Rhenium Alloy by Electron Beam Welding. Rare Metals, 46(09): 1172–1180.
Tang Y, Wang L, Zhang Y, et al., 2022, Optimization of Wire Feeding Parameters for Electron Beam Wire Filling Welding of Aluminum Alloy. Aerospace Manufacturing Technology, 2022(04): 12–16.
Dai Y, Luo B, Fang W, et al., 2023, Study on the Performance of Electron Beam Welded Joints of high-Carbon Chromium Stainless Steel. Materials Herald, 37(17): 197–201.
Huang L, Wang D, Ma Y, et al., 2022, Research on Electron Beam Welding Process for Thin-Walled Cylinder of High-Temperature Nickel-Based Alloy. Oriental Turbine, 2022(02): 51–54 + 78.
Peng T, Zhang X, Qing Y, et al., 2022, Study on the Organization and Properties of Electron Beam Welded Heads of Cast TC4 Titanium Alloy. Welding Technology, 51(05): 18–22.
Xu P, Liu Z, Zhang Y, et al., 2022, Analysis of Electron Beam Welding Performance of Low-Density Niobium Alloy and Niobium-Hafnium Alloy. Aerospace Materials Technology, 52(04): 77–82.
Zhou S, Aa G, Xi S, et al., 2022, Research Progress and Application Prospect of Molybdenum and Molybdenum Alloy Welding Technology. China Molybdenum Industry, 46(01): 1–7.
Yang C, Zhang C, Zhou M, et al., 2023, Research on Vacuum Electron Beam Welding Process and Organizational Properties of Hafnium Metal. Advances in Titanium Industry, 40(05): 30–34.
Chen L, Lei X, Yin Y, et al., 2023, Research on Electron Beam Welding Process of CuNi 90/10 Alloy. Materials Development and Application, 38(04): 92–97 + 110.
Luo F, 2023, Effect of Welding Dust on Electron Beam Welding and Solution Measures. Modern Information Technology, 7(10): 46–49 + 54.