Aluminium coatings that are formed by physical vapour deposition (PVD) on rolled steel products are more resistant to atmospheric and seawater corrosion than zinc coatings. We developed a coating thickness analyzer (CTA) with an X-ray fluorescence (XRF) measuring head, that is integrated into the PVD pilot line. In this study, to conduct measurements of elements with atomic numbers less than 20 while avoiding the problem of registration of light elements, the measuring head was integrated into a process vacuum chamber to maintain a vacuum during the measurements. To validate the proposed tool, cold-rolled steel strips of different grades are used as substrates, and aluminium was deposited on the surface via PVD in thicknesses ranging from 1 to 20 g/m2. The thin-film thickness measurements during a pre-acceptance test were found to have a relative accuracy of less than 5% and a relative precision of less than 1−2%. The proposed CTA can be readily integrated in the factory’s automatic process control system and the real-time measurements in operating and calibration modes, and the status of all spectrometric equipment (X-ray tube, detector etc.) can be transmitted to the upper-level computer. Thus, the process engineer can properly control the deposition process.
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机译:通过物理气相沉积(PVD)在轧制钢制品上形成的铝涂层比锌涂层更耐大气和海水腐蚀。我们开发了具有X射线荧光(XRF)测量头的涂层厚度分析仪(CTA),该头部集成到PVD导频线中。在该研究中,为了在避免光元件的登记问题的同时,将元素的测量结果进行小于20,在避免光元件的配准的问题中,将测量头集成到工艺真空室中以在测量期间保持真空。为了验证所提出的工具,使用不同等级的冷轧钢带作为基板,并且铝通过PVD沉积在表面上,厚度为1至20g / m 2。发现在预验收测试期间的薄膜厚度测量值具有小于5%的相对精度,相对精度小于1-2%。所提出的CTA可以容易地集成在工厂的自动过程控制系统和在操作和校准模式下的实时测量,并且所有光谱设备(X射线管,检测器等)的状态可以被发送到大写电平电脑。因此,过程工程师可以正确控制沉积过程。
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