Experimental and Numerical Analyses of the Temperature Field in the Ironing Process

V. Mandic, D. Adamović, Zoran Jurković, Marko Delić
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Abstract

: The purpose of this paper is to determine the temperature fields in the workpiece and the tool in the ironing process using an integrated approach that includes laboratory experiments and numerical modelling. An originally developed model device for ironing sheet metal strips, which was previously shaped by U - bending, was used for the experimental research. Thermocouples were installed in the device at the position close to the contact surface with the workpiece. The device was mounted on a hydraulic press that enables maximum ironing speeds of v=4.17 mm/s. In order to determine the temperature fields at higher ironing speeds, a series of numerical experiments was performed at identical speeds as in the experiments (0.33 mm/s and 4.17 mm/s) and at higher speeds (100 mm/s, 1000 mm/s and 10000 mm/s). Good matches of the experimental and numerical results at lower speeds were obtained, so the numerical estimates at higher speeds were valid for the analysis and conclusions. With the increase of the ironing speed , a trend of temperature increase is evident. The maximum temperature of 166°C at ironing speed of 10000 mm/s that corresponds to manufacturing of 250 cans per minute is significantly lower than the critical melting temperature of the tin coating.
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熨烫过程中温度场的实验和数值分析
:本文旨在采用实验室实验和数值模拟相结合的方法,确定熨烫过程中工件和工具的温度场。实验研究使用了最初开发的用于熨烫金属板条的模型设备,该设备之前是通过 U 形弯曲成型的。热电偶安装在设备中靠近与工件接触面的位置。设备安装在液压机上,最大熨烫速度为 v=4.17 mm/s。为了确定更高熨烫速度下的温度场,在与实验相同的速度(0.33 毫米/秒和 4.17 毫米/秒)和更高的速度(100 毫米/秒、1000 毫米/秒和 10000 毫米/秒)下进行了一系列数值实验。低速时的实验结果和数值结果非常吻合,因此高速时的数值估算对分析和结论有效。随着熨烫速度的增加,温度上升趋势明显。熨烫速度为 10000 mm/s(相当于每分钟生产 250 罐)时的最高温度为 166°C,明显低于锡涂层的临界熔化温度。
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