1) short circuit arc
短路过渡电弧
1.
Lyapunov exponent analysis of short circuit arc in GMAW;
短路过渡电弧的Lyapunov指数分析
2) short circuiting arc welding
短路过渡电弧焊
3) short arc metal transfer
短弧过渡
4) short circuit transfer
短路过渡
1.
Study on modeling and simulation of short circuit transfer of inverter arc welding system;
短路过渡焊接电源系统建模及仿真研究
2.
Analysis and forecase of dynamic GMAW system on short circuit transfer;
短路过渡GMAW系统中参数变化的预测分析
3.
The technology of butt jointing thin plates by CO_2 shielded spot arc welding with short circuit transfer;
CO_2气体保护焊短路过渡电弧点焊对接薄板技术
5) short-circuit transfer
短路过渡
1.
Effects of voltage of power supply on the short-circuit transfer process in water vapor arc welding;
电源电压对水蒸气保护焊短路过渡过程的影响
2.
High-speed paragraph research on short-circuit transfer process of CO_2 welding;
CO_2焊短路过渡过程的高速摄影研究
3.
After the definition of molten droplet size in short-circuit transfer mode was given and the analysis system for molten droplet size and arc signals based on MATLAB platform was introduced,the characteristic of molten droplet size in short-circuit CO_2 arc welding using the power supply with constant voltage output,the relationsh.
建立了基于高速CCD摄像的熔滴图像检测和焊接电流、电弧电压同步采集系统,在给出短路过渡模式下的熔滴尺寸定义并简述基于MATLAB平台的熔滴尺寸与电弧信号分析系统的基础上,对平特性电源短路过渡CO2焊接熔滴尺寸变化特征及其与工艺性能间的关系进行了试验研究。
6) short circuiting transfer
短路过渡
1.
Modeling and analysis of droplet forming in gas metal arc welding short circuiting transfer;
气体保护焊短路过渡熔滴成形的建模分析
2.
Dynamic model of GMAW system with short circuiting transfer;
GMAW短路过渡动态模型的建立
3.
Results showed that with the different matching of welding current and arc voltage,the mode of metal transfer consists of short circuiting transfer,globular transfer,mixing transfer,projected transfer and streaming transfer etc.
结果表明,双丝间接电弧氩弧焊焊接电流与电弧电压的不同匹配选择,熔滴具有短路过渡、大滴过渡、混合过渡、射滴过渡、射流过渡等不同过渡形式。
补充资料:单相短路电流
分子式:
CAS号:
性质:一相导体与保护导体发生短路时流经相-零回路的电流。单相短路电流是评价和设计保护接零系统设计的基本要素。保护接零系统的单相短路电流不应小于低压断路器瞬时动作或短延时动作过电流脱扣器的整定电流的1.5倍;不应小于低压熔断器熔体额定电流的4倍。
CAS号:
性质:一相导体与保护导体发生短路时流经相-零回路的电流。单相短路电流是评价和设计保护接零系统设计的基本要素。保护接零系统的单相短路电流不应小于低压断路器瞬时动作或短延时动作过电流脱扣器的整定电流的1.5倍;不应小于低压熔断器熔体额定电流的4倍。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条