The equation for the membrane thickness controlling in hot dipping process is deduced using abridged kinetic model process.
利用简化的动态模型过程,推导热浸镀条件下的膜层厚度控制方程,并通过实验手段对此方程作了验证。
The equation for the membrane thickness controlling in hot dipping process is deduced using abridged kinetic model process. The equation is demonstrated by experiment.
利用简化的动态模型过程,推导热浸镀条件下的膜层厚度控制方程,并通过实验手段对此方程作了验证。
The invention provides a hot dipping plating assistant agent containing a fluorocarbon surfactant, which belongs to the technical field of surface plating process of steel materials.
本发明提供一种含氟-碳表面活性剂的热浸镀助镀剂,属于钢铁材料的表面镀覆工艺技术领域。
The equation for the membrane thickness controlling in hot-dipping process was expressed using abridged kinetic model process. The equation was demonstrated by experiment.
利用简化的动态模型过程,推导了热浸镀条件下的膜层控制方程,并通过实验手段对此方程作了验证。
The equation for the membrane thickness controlling in hot-dipping process was expressed using abridged kinetic model process. The equation was demonstrated by experiment.
利用简化的动态模型过程,推导了热浸镀条件下的膜层控制方程,并通过实验手段对此方程作了验证。
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