Selecting laser shocking parameters with the application of artificial neural networks theory, the high power density, neodymium -glass laser is used to laser shock process ductile iron QT450 - 10.
应用人工神经网络理论,合理选择激光冲击参数,对球墨铸铁QT450-10进行了激光冲击试验,并用扫描电镜和数显硬度仪等进行了分析。
This paper presents the method of designing a acoustic sensor monitoring the shock wave and sound wave along with plasma produced in the process of interaction between short-pulse laser and teeth.
介绍了用于激光和牙齿作用后产生的等离子体监控的声学传感器的设计方法,可用于对激光作用过程的监控。
Thus the evolution of the shock waves was numerically studied with laser incident process being taken into account.
考虑了激光辐照过程对流场演化的影响,通过数值计算对激波演化特性进行了研究。
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