The Evolution of Surface Defects on High-Strength Cold Drawn Pearlite Steel Wire Based on Finite Element Method

IF 0.8 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING

Protection of Metals and Physical Chemistry of Surfaces Pub Date : 2025-07-17 DOI:10.1134/S2070205125700066

Kang Xiaolong, Bao Siqian, Xue Huajuan, Zhu Xiaoxiong, Chang Jiaqi, Hu Jiarui, Liu Chen

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Abstract

A continuous cold drawing model of high-strength cold drawn pearlite steel wire with surface defects was established using finite element method, and the variation laws of V-shaped, concave, and U-shaped defects during the drawing process were explored. In addition, the influence of shape parameters and drawing process parameters on V-shaped defects was studied, which is of great significance for reducing the formation of defects in actual production. The results indicate that V-shaped defects are more easily eliminated during repeated drawing processes, while concave defects usually cannot disappear and eventually form folding defects, seriously affecting product quality. By adjusting the parameters of defect shape and drawing process, the disappearance of V-shaped defects can be promoted. Specifically, V-shaped defects with larger defect angles and smaller defect depths are easier to eliminate, while smaller drawing die angles and larger pass compression rates increase the uniformity of strain around the defect, which is beneficial for the disappearance of V-shaped defects.

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基于有限元法的高强度冷拔珠光体钢丝表面缺陷演变

采用有限元法建立了含表面缺陷的高强冷拔珠光体钢丝的连续冷拔模型，探讨了v形、凹形和u形缺陷在拉拔过程中的变化规律。此外，还研究了形状参数和拉深工艺参数对v型缺陷的影响，这对实际生产中减少缺陷的形成具有重要意义。结果表明，v形缺陷在重复拉伸过程中更容易消除，而凹形缺陷通常无法消除，最终形成折叠缺陷，严重影响产品质量。通过调整缺陷形状参数和拉深工艺，可以促进v型缺陷的消失。具体来说，缺陷角度越大、缺陷深度越小的v型缺陷更容易消除，而拉深模角度越小、孔道压缩率越大，则增加了缺陷周围应变的均匀性，有利于v型缺陷的消失。

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来源期刊

Protection of Metals and Physical Chemistry of Surfaces 工程技术-冶金工程

CiteScore

1.90

自引率

18.20%

发文量

审稿时长

4-8 weeks

期刊介绍： Protection of Metals and Physical Chemistry of Surfaces is an international peer reviewed journal that publishes articles covering all aspects of the physical chemistry of materials and interfaces in various environments. The journal covers all related problems of modern physical chemistry and materials science, including: physicochemical processes at interfaces; adsorption phenomena; complexing from molecular and supramolecular structures at the interfaces to new substances, materials and coatings; nanoscale and nanostructured materials and coatings, composed and dispersed materials; physicochemical problems of corrosion, degradation and protection; investigation methods for surface and interface systems, processes, structures, materials and coatings. No principe restrictions exist related systems, types of processes, methods of control and study. The journal welcomes conceptual, theoretical, experimental, methodological, instrumental, environmental, and all other possible studies.