The surface of 316L stainless steel was treated by high-intensity pulsed ion beams(HIPIB).
利用强流脉冲离子束(HIPIB)对316L不锈钢进行了表面辐照处理。
The analysis of cross section Metallograph before and after HIPIB irradiation confirms the simulation results of energy deposition.
HIPIB辐照后的横截面金相组织照片分析,证实了能量沉积模拟结果。
On the bipolar-pulse mode HIPIB apparatus, a planar diode model of self-magnetic field MID is proposed for analysis of the diode behaviour during the negative pulse stage.
通过建立平面离子二极管模型,分析了负脉冲阶段二极管中初始等离子体的形成。
The response of magnetically insulated ion diode (MID) during the pulse, the key issue for HIPIB technology, is analyzed for principle of HIPIB generation in bipolar-pulse mode.
针对HIPIB技术的关键—磁绝缘离子二极管,进行了双极脉冲模式下自磁绝缘离子二极管脉冲各阶段的响应研究。
The response of magnetically insulated ion diode (MID) during the pulse, the key issue for HIPIB technology, is analyzed for principle of HIPIB generation in bipolar-pulse mode.
针对HIPIB技术的关键—磁绝缘离子二极管,进行了双极脉冲模式下自磁绝缘离子二极管脉冲各阶段的响应研究。
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