采用位移门槛电压控制焊接过程,对Q 235 - A钢进行了变压式和等压式扁钢带直流电阻对焊试验。
A displacement threshold was used to control DC upset butt welding process, and constant pressure and varied pressure tests were carried out on Q235 a steel strips.
通过爆炸焊接过程的闪光X射线摄影,测得了飞板弯折角。其数值与半圆柱试验测得的飞板弯折角基本上相一致。
The bend Angle of the flyer plate was determined by flash X-ray photography during explosive welding and the value coincides with that obtained in the semicylinder test.
试验中发现,采用模糊专家控制系统对焊接过程进行闭环控制时,焊丝干伸长及电弧弧长对焊接过程稳定性和焊缝成型有重要影响。
The experiment show that wire extension and arc length can influence the stabilization of welding process and the welding-seam modeling when using fuzzy-expert system .
试验结果表明,该控制器能在控制实现电弧螺柱焊过程的基础上,通过采集焊接参数客观反映焊接过程的变化。
From the test results, it is indicated that the controller can not only realize arc stud welding procedure, but also describe the welding process by date acquisition of welding parameter.
通过A105钢的平板对接试验,对焊接过程中焊接横向变形进行实时测量。
According to the plate butt welding of A105 steel, the transverse deformation was real-time measured during welding.
利用该同轴保护喷嘴进行不锈钢激光叠焊试验,分析同轴保护喷嘴对保护效果及焊接过程的影响。
This laser welding coaxial protection air spout was used to weld the stainless steel, and then the effect of coaxial protection air spout on the welding process was analyzed.
试验结果表明,通过对短路过渡过程中各个不同阶段的输入能量的控制,可提高焊接过程的稳定性,实现CO2焊的高速化。
The results show that the welding stability can be improved by controlling the input energy in each period to achieve high-speed CO2 arc welding.
焊接过程中合适的保护气体及其送气方式也是十分必要的。大量试验表明,激光功率密度、焊接速度、脉冲宽度和脉冲频率四个参数的合理组合是实现不锈钢薄板焊接的关键因素。
The results show that the rational combination of welding parameters such as the laser power density, the welding speed, the pulse frequency and pulse width influence the quality of the weld beam.
焊接过程中合适的保护气体及其送气方式也是十分必要的。大量试验表明,激光功率密度、焊接速度、脉冲宽度和脉冲频率四个参数的合理组合是实现不锈钢薄板焊接的关键因素。
The results show that the rational combination of welding parameters such as the laser power density, the welding speed, the pulse frequency and pulse width influence the quality of the weld beam.
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