Other uses for this high power diode laser bar are as a direct source for various materials processing applications including cladding, welding, heat treating and brazing.
该高能半导体激光器的其他用途包括,用作各种材料处理应用的激光光源,这些处理应用包括覆层、焊接、热处理和铜焊接。
The high-power IGBTs are adopted to design the dual inverter arc-welding power source for variable polarity pulse MIG welding.
提出采用大功率IGBT设计变极性脉冲MIG焊双逆变弧焊电源。
The source of the system is determined through researching the interference light (Arc light) characteristics and the characteristics of the laser light source and clear welding images are obtained.
通过研究焊缝跟踪干扰光(电弧光)的特点和激光光源的特点,确定了该系统的光源,获取了清晰的焊缝图像。
Arc voltage and welding current are signal source.
以电弧电压和焊接电流为采集的信号源。
The design principle on EMC of input for inverter welding power source is analyzed in this paper, and some methods for restraining EMI are put forward on the basis of the practices.
分析了逆变焊接电源输入端e MC设计的原理,并在一些实践的基础上提出了具体的抑制eMI的措施。
The design procedures and example of resonant converter used in arc welding inverter power source are proposed in this paper.
本文提出了用于弧焊逆变电源的谐振交流器设计思路和实例。
The discrete time mathematical model of a switched TIG welding power source is established. The arc ignition process, its property, current wave form and arc stability are analysed.
本文建立了开关式TIG焊电源的离散时域数学模型,分析了电弧引燃过程、引弧性能、电流波形特点和电弧稳定性。
Half-circle model and full-circle model, fixed heat source and moving heat source, single pass and multi-pass welding are used for comparison.
比较了半周模型和全周模型,固定热源和移动热源,单道焊和多道焊下的分析结果。
The structure and component of the IGBT inverter type welding power source are introduced in the paper. The welding power source include main circuit, control circuit and protect circuit.
论文介绍了IGBT逆变焊接电源系统的结构和组成,整台焊接电源包括电源主电路、控制电路和保护电路。
The ideas of constructing of the control circuit of full-function controlled power source for arc welding are suggested in this paper, with their features analyzed.
提出了全功能弧焊电源控制电路的各类设计方案,分析了它们的特点;并提出了一种电源控制系统的电路设计方案;分析其基本工作原理和获得的各类电源输出外特性。
Numerical computation of 3d welding temperature field distribution is carried out using different heat source models. The differences of the computation results are compared.
针对具体算例,采用3种不同的热源加载模式进行三维焊接温度场的数值计算,并比较不同方法计算焊接温度场结果的差异。
The power factor of PWM are welding power source has been discussed in this paper.
本文讨论了脉宽调制(PWM)逆变式弧焊电源的功率因数。
The power factor of PWM are welding power source has been discussed in this paper.
本文讨论了脉宽调制(PWM)逆变式弧焊电源的功率因数。
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