Range of kerf width and exposure may be changed for optimized performance.
一系列的切缝宽度和曝光可能会改为优化的表现。
The basic principle, test device, and the regularity of cutting parameters affecting to the arc characteristics, kerf width, kerf Angle, and dross free cutting speeds are dealt with.
内容涉及基本原理、实验装置及加工参数对弧柱特性、切口宽度、切口角、无渣切速的影响规律。
To reduce the kerf width and to improve the kerf quality, the experiments of ceramic cutting with water constricted plasma arc are carried out.
为减小切口宽度,提高切口质量,进行了水再压缩等离子弧切割陶瓷实验研究。
The effects of laser process parameters on kerf width and quality were studied.
系统研究了工艺参数对切缝宽度和切缝质量的影响规律。
The results show that the kerf width increases with the increase of laser power, pulse frequency, pulse width and assist gas pressure, but decreases with the increase of cutting speed.
结果表明:缝宽随输出功率、频率、脉宽及辅助氧压的增大而增加,随着切割速度的增加而减小。
At last, the authors give a compensation principle for dimensional accuracy control of grooving kerf width with laser beam for seamless pipe.
最后提出了管材激光割缝时槽宽尺寸精度控制的补偿原则。
In the same of average power, peak power and duty cycle constant, pulse width is the primary parameter which affects the kerf width.
在相同的平均功率、峰值功率和脉宽比下,脉冲宽度是影响切缝宽度主要参数。
The results showed that the kerf width increases with the increase of the power density, pulse frequency and pulse width;
结果表明,缝宽随激光功率密度、频率以及脉宽的增加而加大;
The results showed that the kerf width increases with the increase of the power density, pulse frequency and pulse width;
结果表明,缝宽随激光功率密度、频率以及脉宽的增加而加大;
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