改变能量输入的层厚控制:送粉条件不变时,熔覆层厚度随熔池温度的增加而增加,通过控制激光功率或扫描速度可以实现熔覆层厚度的反馈控制。
The control of layer thickness by changing energy input. When the powder feed conditions were constant, the layer thickness was increasing with the increase oftemperature of melt pool.
进一步,通过有限元数值模拟方法计算了界面不同位置的热循环曲线,进行了不同热输入条件下反应层厚度的预测。
Further, according to thermal cycle calculated by the finite element method, the thickness of reaction layer was predicted in the case of different heat input.
使用者仅需输入设计条件,然后在结果处轻轻一点,即可计算出封头厚度。
The calculating results of thickness of elliptical heads can be automatically obtained only by inputting design conditions.
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