2020年, 第29卷, 第3期　
刊出日期：2020-09-28

  

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  Lap joining 5052 aluminum alloy to Ti6Al4V titanium alloy by GTAW process with AlSi12 filler wire

  Akhtar Awais, 董红刚, 夏月庆, 李鹏

  中国焊接. 2020, 29(3): 1-8. https://doi.org/10.12073/j.cw.20200623001

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  The process of gas tungsten arc welding (GTAW) is applied with AlSi12 filler metal to weld 5052 aluminum alloy and Ti6Al4V titanium alloy in lap configuration. The welded lap joints showed dual features of welding and brazing on the aluminum and titanium parts of the joint, respectively. The continuous reaction layer established in the brazed area and its chemical composition by EDS analysis revealed that the intermetallic compounds (IMCs) layer of Ti(Al, Si)₃ phase formed and aluminum was partially substituted by silicon. The thickness of reaction layer differed from 1μm to 3.5 μm with increase in welding heat input accordingly. Al, Ti and Si elements in the weld region and IMCs layer were recognized by analysis of EPMA. The maximum tensile shear strength attained at the optimized welding heat input was 376 N/mm and the joint fractured from 5052 aluminum alloy base metal. Furthermore, the microhardness was measured, and the hardness was higher at the Al/Ti interface than in the weld seam and Ti6Al4V alloy base metal because of the development of IMCs.
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  The development of 3D printing technology and the current situation of controlling defects in SLM technology

  尹燕, 张圆, 董开基, 张瑞华, 柴旭天

  中国焊接. 2020, 29(3): 9-19. https://doi.org/10.12073/j.cw.20191230002

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  With unique manufacturing technology, the additive manufacturing technology divides the three-dimensional object into countless two-dimensional laminates. Compared with the traditional material reduction manufacturing method, it has the characteristics of saving materials, being fast, and especially suitable for single and small batch parts and the rapid manufacturing of parts with complex shapes and internal structures. In this paper, various methods of additive manufacturing technology are reviewed. This paper introduces the characteristics of selective laser melting technology and its forming equipment system. On this basis, the technical defects of selective laser melting technology are analyzed, and the status of controlling defects in SLM technology is explained. In the end, the prospects of additive manufacturing technology are described.
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  Effect of shielding gas and defocusing on porosity during laser beam welding of 7A52 alloy

  王磊, 许雪宗, 王克鸿, 李赫, 黄勇

  中国焊接. 2020, 29(3): 20-25. https://doi.org/10.12073/j.cw.20200430006

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  Laser beam welding is used to fabricate the 7A52 aluminum alloy plates. Effects of shielding gas and defocusing on porosities are investigated. Porosities are divided into hydrogen porosities and keyhole-induced porosities. With the increasing flow rate of the front shielding gas, the porosity ratio firstly decreases, then increases. The porosity ratio is lowest under the flow rate of 25 L/min. When the flow rate is 30 L/min, the porosity ratio is higher because the large flow rate can affect the stability of the keyhole. The porosity ratio is also higher when the flow rate is less than 25 L/min because the protection is weakened. With the increase of the defocusing, the porosity ratio firstly decreases, then increases. When the defocusing is –2 mm, the porosity ratio is lowest. When the defocusing is more than 0 mm or less than –4 mm, the porosity ratio is higher due to the movement of the instable keyhole.
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  Microstructure and mechanical/conductivity properties of pure copper joint welded by friction stir welding

  鞠川, 宫文彪, 刘威, 姜帆, 王文权

  中国焊接. 2020, 29(3): 26-32. https://doi.org/10.12073/j.cw.20200102007

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  Copper plates with 3 mm thickness were friction stir welded at a rotation rate of 800 r/min and different welding velocity. The effects of microstructure and the mechanical/conductivity properties of the FSW joints were studied. The results indicate that the grain sizes of nugget zones are 2.49, 2.13 and 5.07 μm for welding speed of 100, 150 and 200 mm/min, respectively. Furthermore, lower density of dislocation was obtained in the nugget zone. Under the welding speed of 200 mm/min, annealing twins had been observed. When the speed is 150 mm/min, the tensile strength of the stir welded joint is 264 MPa that can reach 98% of the base metal. The mechanical properties of the joints with the welding speed of both 100 mm/min and 200 mm/min are lower than the base metal. The corrosion resistance of weld is higher than that of base metal. Electrical resistivity measurement shows no obvious change in the welded joints compared to the base metal at the room temperature.
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  Effect of welding pressure on mechanical properties of resistance spot welding joint

  尹孝辉, 何国强, 刘思含, 崔梦栓, 胡磊, 崔冰

  中国焊接. 2020, 29(3): 33-38. https://doi.org/10.12073/j.cw.20200312001

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  To investigate the factors affecting the quality of solder joints which would be available for the practical production, an axisymmetric finite element model of the resistance spot welding process simulated by Sysweld finite element software was established for a DP980 steel plate with a thickness of 1 mm. By simulating the formation process of spot welding nuggets, the distribution characteristics of temperature field and stress field in the process of spot welding heating and cooling can be studied to determine the nugget diameter and shear strength index. The results showed that the shear force of the spot-welding joint was affected by the structure, and the nugget diameter was non-linear relationship to the shear performance. For the DP980 spot welding joint, the critical nugget diameter of the IF fracture mode to PF fracture mode was 4.695 mm, and the maximum value of nugget diameter and residual stress decreased to different degrees with the increase of welding pressure.
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  Microstructure and properties of the joints of Cu/Cu and metallized Cu / kovar brazed with a low-silver vacuum brazing filler metal

  柳旭, 王文静, 张国清, 陈晓宇, 黄晓猛, 陈怡兰

  中国焊接. 2020, 29(3): 39-43. https://doi.org/10.12073/j.cw.20201219001

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  In an attempt to develop low-silver brazing filler metals used for hermetic sealing materials in the vacuum interrupter industry, the ternary Ag-50Cu-5Ga low-silver vacuum brazing filler metal was investigated. The melting temperature was measured by differential scanning calorimetry (DSC), and the brazability of Ag-50Cu-5Ga alloy on copper and metallized copper/kovar were ascertained at 850 ℃ under 1×10^–4 Pa in this article. The microstructures of the filler metal and the joints have been analyzed by using scanning electron microscopy (SEM), equipped with an energy dispersive spectroscopy. The results show that vacuum brazing was success to join with copper or metallized copper/kovar using Ag-50Cu-5Ga filler and reliable joints were obtained. There were Ag-rich phase, Cu-rich phase and a fine eutectic structure of Ag-based solid solution and Cu-based solid solution in the copper joints and the width of brazing seam is about 60 μm. The joints of kovar alloy to copper after surface nickel plating was composed of AgCu eutectic phase, Ag, Cu, Cu₂Ga and CuNi₂ phase. The tensile strength was 167 MPa and 150 MPa, respectively. The tensile results of joints show that the joint strengths were equivalent to the traditional brazing filler metals.
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  Numerical analysis of typical droplets transfer mode in wire and arc additive manufacture process

  潘家敬, 何锡鑫, 赵朋成, 何燕, 刘冰, 郭怀志

  中国焊接. 2020, 29(3): 44-53. https://doi.org/10.12073/j.cw.2020050800

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  A two-dimensional model was established for the first time by coupling moving wire and arc in CMT-WAAM and GMAW-WAAM process, revealing the temperature, potential and droplet transition behavior of droplet metal. The droplet transition and the change of droplet transfer mode under different wire feeding speed were analyzed. The experiments and numerical simulation research found that droplet transition mode is projected transfer in GMAW-WAAM process under 150 A current, with a complete transition period is 14 ms. The droplet transition shows a short-circuit transition mode in CMT-WAAM process, with wire feeding speed of 5.5 m/min and a complete transition period is 20 ms. The droplet transition shows a mixture of droplet transfer and short-circuit transition mode in CMT-WAAM process, with wire feeding speed of 5.5 m/min and a complete transition period is 23 ms. Based on the theoretical research and experimental studies, the mechanism of droplet transfer mode in WAAM was studied, which can provide reference for optimizing parameters.
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  Research of performance of RSW on quiet steel

  王伟峰, 计遥遥, 刘东亚, 成昌晶, 陈忠轩

  中国焊接. 2020, 29(3): 54-58. https://doi.org/10.12073/j.cw.20191223008

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  The quiet steel has been favored by automobile manufacturers for its advantage in shock absorption and noise reduction. However, there is less research on the welding performance of quiet steel plates. In this paper, the welding lobe of 1.0 mm quiet steel is studied. The comprehensive evaluation of spot welded joints was carried out by evaluation methods such as metallographic structure, microhardness, shear tensile and cross-tensile. The result showed that when the welding heat input was small, the interlayer of the quiet steel plate was not completely fused, and when the heat input was enough, the composite interlayer is completely fused with the steel plate, and the mechanical properties were good. The welding lobe of the quiet steel reaches 4.2 kA with good comprehensive mechanical properties and good weldability.
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  Performance analysis of 5A05 alloy brazed in vacuum with AlCuAg series filler metal

  黄晓猛, 齐岳峰, 张国清, 柳旭, 陈晓宇

  中国焊接. 2020, 29(3): 59-64. https://doi.org/10.12073/j.cw.20200210001

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  A multi-component alloy grade with liquidus temperature lower than 500 ℃ was obtained by adding Ge and Mg elements on the basis of Al-Cu-Ag alloy, and the melting characteristics, as cast structure, tensile strength and section morphology of the alloy solder were studied. The results show that the solidus-liquidus temperature of the new designed Al-Cu-Ag-Ge-Mg solder is 468 – 491 ℃; in the vacuum environment, when heated to 530 ℃ for 5 minutes, the surface of 5A05 aluminum alloy has a good wetting spread phenomenon. Under the same conditions, the tensile strength of the joint obtained by brazing is more than 50 MPa by tensile test at room temperature; combined with the observation and analysis of section morphology. The addition of Ge can effectively reduce the solidus liquidus temperature of solder, and exist in the as cast structure and soldering seam with AlGe and MgGe. The presence of Ge element can inhibit the effect of other elements of the solder and Mg in the base metal, and alleviate the corrosion phenomenon between the solder and the base metal.