Development of Software for Billet Barreling Predicting at the Desing of Metalforming Processes Based on Pre-Upsetting

2022 IEEE 17th International Conference on Computer Sciences and Information Technologies (CSIT) Pub Date : 2022-11-10 DOI:10.1109/CSIT56902.2022.10000479

V. Kukhar, E. Balalayeva, Olga Tuzenko

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Abstract

The development and automation of a methodology for determining the deformation unevenness in the form of barreling during the pre-upsetting of billets with flat dies are carried out. The urgency of the problem is to establish the feasibility of two directions: (a) the need to predict the value of barreling to achieve a complex energy-saving effect in metal forming technologies, (b) the development of separate software for processing experimental data to eliminate the use of expensive CAE-systems for simulation. The calculation method is based on the barreling coefficient’s exponential mathematical dependence on the cylindrical billet’s initial geometric dimensions, the degree of upsetting strain, and the required coefficients characterizing the properties of the billet material and the thermomechanical conditions of deformation. Software testing has shown that the average error between the results of the barrel coefficient calculations according to the developed model and the experimental data is 8.1%.

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基于预镦粗的锻件成形工艺设计坯身预测软件的开发

发展和自动化的一种方法，以确定在桶的形式的变形不均匀在坯坯的预镦粗与平模具进行。问题的紧迫性在于确立两个方向的可行性:(a)在金属成形技术中需要预测筒体的值以实现复杂的节能效果，(b)开发单独的软件处理实验数据，以消除使用昂贵的cae系统进行仿真。该计算方法基于筒身系数与圆柱形方坯初始几何尺寸、镦粗应变程度、表征方坯材料性能和变形热力学条件所需系数的指数数学依赖关系。软件测试表明，根据所建立的模型计算的枪管系数结果与实验数据的平均误差为8.1%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 17th International Conference on Computer Sciences and Information Technologies (CSIT)

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