利用遗传编程优化铸造速度,减少表面缺陷:工业案例研究

M. Kovacic, U. Zuperl, L. Gusel, M. Brezocnik
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引用次数: 0

摘要

Štore 钢铁有限公司使用 2016 年安装的连铸机生产 200 多种不同类型的钢材。一些缺陷主要与结晶器中的热机械行为有关,都源于连铸过程。所有钢种的连铸速度均为 1.6 米/分钟。2023 年 5 月,启动了一个根据浇铸温度调整浇铸速度的项目。此次调整包括表面缺陷数量最多且含碳量不同的钢种:16MnCrS5、C22、30MnVS5 和 46MnVS5。与规定的铸造温度每偏差 10 °C,速度就会改变 0.02 m/min。在 2 个月的时间里,上述钢种中检测到表面缺陷(由自动控制线检测)的轧制棒材比例有所下降。其中,16MnCrS5、C22、30MnVS5 和 46MnVS5 分别从 11.27% 降至 7.93%、从 12.73% 降至 4.11%、从 16.28% 降至 13.40%、从 25.52% 降至 16.99%。根据从这两个月中收集到的化学成分和铸造参数,使用线性回归和遗传编程建立了模型。这些模型预测了检测到表面缺陷的轧制棒材比例和检测到的表面缺陷长度。根据建模结果,通过调整铸造速度,可将检测到表面缺陷的轧制棒材比率和检测到表面缺陷的长度分别减少 14% 和 189%。在 2023 年 7 月至 11 月期间,通过调整其他 27 种钢材的浇铸速度,也取得了类似的结果。利用已获得的模型也能预测出同样的结果。遗传编程优于线性回归。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reduction of surface defects by optimization of casting speed using genetic programming: An industrial case study
Štore Steel Ltd. produces more than 200 different types of steel with a continuous caster installed in 2016. Several defects, mostly related to thermomechanical behaviour in the mould, originate from the continuous casting process. The same casting speed of 1.6 m/min was used for all steel grades. In May 2023, a project was launched to adjust the casting speed according to the casting temperature. This adjustment included the steel grades with the highest number of surface defects and different carbon content: 16MnCrS5, C22, 30MnVS5, and 46MnVS5. For every 10 °C deviation from the prescribed casting temperature, the speed was changed by 0.02 m/min. During the 2-month period, the ratio of rolled bars with detected surface defects (inspected by an automatic control line) decreased for the mentioned steel grades. The decreases were from 11.27 % to 7.93 %, from 12.73 % to 4.11 %, from 16.28 % to 13.40 %, and from 25.52 % to 16.99 % for 16MnCrS5, C22, 30MnVS5, and 46MnVS5, respectively. Based on the collected chemical composition and casting parameters from these two months, models were obtained using linear regression and genetic programming. These models predict the ratio of rolled bars with detected surface defects and the length of detected surface defects. According to the modelling results, the ratio of rolled bars with detected surface defects and the length of detected surface defects could be minimally reduced by 14 % and 189 %, respectively, using casting speed adjustments. A similar result was achieved from July to November 2023 by adjusting the casting speed for the other 27 types of steel. The same was predicted with the already obtained models. Genetic programming outperformed linear regression.
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