用 Al-Zr 系合金生产电线的铸造、轧制和挤压组合工艺的建模和研究

Q1 Engineering
Sergey Borisovich Sidelnikov , Vadim Mikhaylovich Bespalov , Denis Sergeevich Voroshilov , Ekaterina Sergeevna Lopatina , Igor Lazarevich Konstantinov , Yulbarskhon Nabievich Mansurov , Mikhail Mikhaylovich Motkov , Roman Ilsurovich Galiev , Vladimir Ivanovich Ber , Irina Nikolaevna Belokonova , Alexander Vasilyevich Durnopyanov
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引用次数: 0

摘要

本报告介绍了利用 Al-Zr 系合金生产线材并确定其物理和机械性能的铸造、轧制和挤压工艺的建模和研究成果。作为研究成果,研究了合金制备模式及其化学成分对通过联合轧制-挤压(CRE)和无锭轧制-挤压(IRE)方法获得的 Al-Zr 系合金长材半成品的物理、机械和电气性能的影响。利用热扭转法获得的流变特性数据,在 DEFORM 3D 软件包中对其中一种系统合金的 CRE 过程进行了模拟。在建模结果的基础上,选择了进行实验研究的最佳模式。通过实验研究了金属成型的特征,发现了组合加工的温度-速度和技术参数,以及铸坯的特性,包括使用电磁模具(EMM)获得的铸坯。对 CRE 和 IRE 工艺的实验研究结果表明,可以从合金 Al-Zr 系统中获得长变形半成品,其物理、机械和电气性能达到国际标准。此外,还对所研究合金制成的线材的耐热性能进行了研究,发现在 280 °C 的温度和 1 小时的保温时间下进行测试后,线材的耐热性能满足 AT3 类型标准的要求,允许的最高长期工作温度为 210 °C。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling and investigation of combined processes of casting, rolling, and extrusion to produce electrical wire from alloys Al–Zr system

The results of modeling and research of casting, rolling, and extrusion processes for producing wire from Al–Zr system alloys and determining its physical and mechanical properties have been presented. When implementing combined processes for processing aluminum alloys, the number of operations is significantly reduced, productivity and yield are increased.

As a result of the conducted research, the influence of alloy preparation modes and their chemical composition on the physical, mechanical and electrical properties of longish semifinished products from Al–Zr system alloys obtained by combined rolling-extrusion (CRE) and ingotless rolling-extrusion (IRE) methods were investigated.

The simulation of the CRE process for one of these alloys of the system was carried out in the DEFORM 3D software package using data on its rheological properties obtained by the hot torsion method. Based on the modeling results, the optimal modes for conducting experimental studies were selected.

The features of metal forming were experimentally studied, the temperature-velocity and technological parameters of combined processing were found, as well as the properties of cast billets, including those obtained using an electromagnetic mold (EMM). The results of experimental studies of the CRE and IRE processes suggest that it is possible to obtain longish deformed semifinished products from alloys Al–Zr system with a level of physical, mechanical and electrical properties that meet international standards.

At all technological stages, including drawing, the structure of the metal was studied, and data on the physical and mechanical properties of hot-extruded rods and wire in cold-deformed and annealed states was obtained.

The heat resistance of wire made from the investigated alloys was studied and it was found that after testing at a temperature of 280 °C and a holding time of 1 h, it satisfies the requirements of the AT3 type standard with a maximum permissible long-term operating temperature of 210 °C.

Recommendations are given for industrial implementation; alloys containing 0.15–0.20% zirconium and 0.10–0.15% iron are recommended for the manufacture of AT1 type wire without heat treatment, as well as 0.25–0.30% Zr and 0.2–0.25% Fe for AT3 wire type with heat treatment.

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来源期刊
International Journal of Lightweight Materials and Manufacture
International Journal of Lightweight Materials and Manufacture Engineering-Industrial and Manufacturing Engineering
CiteScore
9.90
自引率
0.00%
发文量
52
审稿时长
48 days
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