inert gas welding

英 [ɪˈnɜːt ɡæs ˈweldɪŋ] 美 [ɪˈnɜːrt ɡæs ˈweldɪŋ]

网络  惰性气体焊接法

化学

双语例句

  1. Shield inert gas metal orc welding
    惰性气体保护金属极弧焊
  2. Argon serves as a shielding gas to protect metals from oxidation during welding. Inert gas welding is the preferred method of joining several ferrous and nonferrous alloys.
    焊接中,氩作为保护气防止金属氧化。惰性气体焊接是连接几种含铁和不含铁的合金的首选方法。
  3. The simulation of aluminum alloy plate tungsten inert gas welding ( TIG) process using finite element software-ABAQUS was researched.
    利用ABAQUS有限元软件对铝合金平板钨极氩弧焊(TIG)焊接过程进行了数值模拟。
  4. In this article, according to the actual situation of the Tungsten Inert Gas ( TIG) welding pool, a two-dimensional axisymmetric model of the stationary TIG weld pool is developed.
    根据TIG焊熔池的实际情况,建立了定点热源作用下TIG熔池的二维轴对称数学模型。
  5. Inert gas tungsten arc welding Observations of Molten Pool Behavior during A-TIG Welding
    活性剂钨极惰性气体保护电弧焊接熔池行为的观察
  6. Research on TIG welding arc with numerical simulation by using ANSYS Ultrasonic frequency pulse tungsten inert gas welding power source topology and welding applicability
    基于ANSYS的TIG焊接电弧数值模拟研究超音频脉冲TIG焊电源拓扑及电弧焊适用性
  7. Pulsed tungsten inert gas arc welding
    脉冲钨极惰性气体保护电弧焊
  8. Ultrasonic frequency pulse tungsten inert gas welding power source topology and welding applicability
    超音频脉冲TIG焊电源拓扑及电弧焊适用性
  9. Comparative Analysis of Residual Stress in Tungsten Inert Gas Arc Welding with Continuous and Discontinuous Condition
    钨极氩弧连续和间断焊接的残余应力对比分析
  10. Study on Tungsten Inert Gas ( TIG) Welding of Stainless Steel Welding
    钨极氩弧焊在不锈钢焊接中的试验研究
  11. Research on Prediction Model of GMAW Ignition Time shielded inert gas metal arc welding
    熔化极气体保护焊引弧时间预测模型惰性气保护金属弧焊法
  12. Analysis and dynamic measure of tungsten inert gas spot welding pool for tantalum sheet
    钽薄板TIG氦弧点焊熔池的动态测定与分析
  13. The residual stress of weld, in both parallel and perpendicular direction, was measured by impacted indentation method for hybrid laser-tungsten inert gas arc welding of magnesium alloy.
    采用冲击压痕法,对激光&氩弧复合热源焊接镁合金AZ31B焊缝的残余应力进行了测量,分别测量了300mm长镁合金的焊接接头沿焊缝方向和垂直焊缝方向上的残余应力。
  14. Shielding gas is the crucial reason for the process stability and the efficient synergetic effects between laser welding and CO_2 laser-TIG ( tungsten inert gas) hybrid welding, resulting in bigger weld penetration depth.
    保护气体组成及其保护方式是决定CO2激光-钨极氩弧焊(TIG)电弧复合焊接工艺稳定性和激光、电弧两种热源能否有效耦合并取得增强的焊接熔深的关键原因。
  15. Numerical Analysis on Tungsten Inert Gas Welding Arc
    钨极氩弧焊焊接电弧数值分析
  16. Numerical Analysis of Direct Current Tungsten inert Gas Welding Arc
    直流TIG焊接电弧的数值分析
  17. The paper also describes the principle of welding material selection, recommends the welding process parameters of tungsten inert gas arc welding and manual metal arc welding, and points the special process measure and notable matters for welding.
    阐述了焊接材料的选择原则,给出了钨极惰性气体保护焊和手工电弧焊的推荐焊接工艺参数。指出了该材料在焊接时采取的特殊工艺措施和注意事项。
  18. Application of Tungsten Inert Gas Arc Welding Technology In Gas Piping Construction
    氩弧焊打底技术在燃气管道施工中的应用
  19. Focused on the application of magnesium alloy welding materials, this paper researched the preparation process of Mg welding wire and explored the tungsten inert gas welding process with filler wire of magnesium alloys butted plates.
    本文紧密结合镁合金焊接材料在实际焊接中的应用,研究了镁合金焊丝的制备工艺,并采用填丝TIG焊接方法,完成了镁合金板材的对接连接。
  20. Researches on Welded Joints of Aluminum Alloy Sheets by Tungsten Inert Gas Welding Process
    薄板Al合金的TIG焊接头性能研究
  21. Process hollow cathode inert gas arc welding in and equipment
    真空空心阴极电弧焊接研究和设备研制
  22. Numerical Computation on Anode Current Density Distribution of Direct Current Tungsten Inert Gas Welding Arc
    直流TIG焊接电弧阳极电流密度的数值计算
  23. Investigation and Development of Numerical Simulation of High-pressure Tungsten Inert Gas Welding Arcs
    高压钨极氩弧焊焊接电弧行为数值模拟的研究现状与发展
  24. Because TIG welded joints without filler wire always hold low strength and poor formation, tungsten inert gas welding process with filler wire is inevitable.
    由于镁合金不填丝的TIG焊接接头强度低,焊缝表面成型不好,所以,镁合金的填丝TIG焊接方法不可避免。
  25. Metal inert gas welding ( MIG) is widely used in pipeline welding.
    熔化极惰性气体保护焊(MIG)广泛的应用于管道焊接中。
  26. Pulsed MIG ( MIG arc welding inert gas) welding has the beautiful bead, with a good combination of matrix, a small heat input to the matrix, with less effect to the matrix, hence can be used to surface deposited to achieve functionally graded materials.
    脉冲MIG(熔化极惰性气体保护焊)堆焊成形的焊道美观,与基体的结合良好、热输入小,对基体的性能影响较小,可用来进行表面堆敷,实现功能梯度材料。
  27. In modern industry, the metal inert gas welding is a widely used welding method, which can almost weld all metals. It has many advantages, such as high efficiency, good welding quality, and easy to realize automation.
    在现代工业生产中,熔化极惰性气体保护焊是一种广泛采用的焊接方法,几乎可以焊接所有的金属材料,具有焊接生产效率高、焊接质量好、易于实现自动化等优点。
  28. The improved gas unit could enhance protective effect of inert gas in U-TIG welding.U-P-TIG welding was studied in depth from four aspects: state of arc shape and weld pool, ultrasonic parameters, welding conditions, microstructure and mechanical properties of welding joint.
    改进的导气装置提高了气体保护效果。对U-P-TIG焊接方法从电弧形态与熔池状态,超声参数、焊接参数影响以及接头微观组织与力学性能四个角度进行了深入研究。
  29. Backing welding is a very vital step in pipeline, MIG ( Metal Inert Gas Arc Welding) has been paid more and more attention by virtue of its high efficiency and user-friendly feature recently.
    打底焊是管道焊接中的一个重要步骤,近年来MIG(惰性气体保护电弧焊)焊凭借其生产效率高、便于操作等特点受到了焊接工作者的重视。
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