Conclusion weld fume concentration is effectively controlled during taking comprehensive improvement measures in the welding workplace producing container.
结论在综合治理措施的实施下,集装箱焊接车间的焊接烟尘浓度得到有效控制。
The gap control device to ensure the weld seam welding space meet the requirements, diameter, misalignment and weld gap have been strictly controlled.
采用焊缝间隙控制装置来保证焊缝间隙满足焊接要求,管径,错边量和焊缝间隙都得到严格的控制。
The experiments show that the predicted weld dimensions are in agreement with the measured ones, and the geometry sizes of the weld can be predicted and controlled by this way.
实验表明,焊缝几何尺寸和焊接热循环的计算值和实测值吻合良好,这一方法可用于焊缝几何尺寸的预测和控制。
Based on these fuzzy control forms, weld pool width is easily controlled by adjusting welding current.
以焊接电流为控制量,可以根据此控制作用表对焊缝熔宽进行实时控制。
The results show that the weld marks are well controlled by this method.
结果表明,采用阀式浇注技术对控制熔接痕取得了较好的效果。
Welding test of the products has shown that penetration of the lap weld can be controlled in required tolerance for design using the control system.
产品焊接试验表明它可以使搭接焊缝熔深控制在产品设计要求的范围之内。
The computer controlled system of welding rapid prototyping was introduced. During welding, this system could adjust the weld parameters in real time.
介绍了熔焊快速成型的计算机控制系统,该系统能够在焊接过程中对焊接参数实时调节。
The main feature of the device is able to observe arc and molten pool directly in coaxial direction so that the welding process is easily controlled and alignment of weld can be warranted.
其装置特点是能够轴向直接观察电弧和熔池状态,从而便于控制焊接过程,保证焊缝的对中性。
The weld size was controlled according to the definition of leg on the corner joint and DL/T869—2004 (power plant welding technical regulation), which led to the effective thickness was insufficient.
按目前大多数人认可的角接接头焊脚的定义,根据DL/T869—2004《火力发电厂焊接技术规程》去控制焊接尺寸,会出现焊缝有效厚度不足的问题。
The weld size was controlled according to the definition of leg on the corner joint and DL/T869—2004 (power plant welding technical regulation), which led to the effective thickness was insufficient.
按目前大多数人认可的角接接头焊脚的定义,根据DL/T869—2004《火力发电厂焊接技术规程》去控制焊接尺寸,会出现焊缝有效厚度不足的问题。
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