Mathematical Modeling of Complex-Shape Forming of Ultrafine-Grained Ti Alloy and Subsequent Deposition of Protective High-Entropy Coatings

被引:0
|
作者
Valiev, R. R. [1 ]
Oleinik, A. V. [1 ]
Asfandiyarov, R. N. [1 ,2 ]
Nazarov, A. Yu. [1 ]
Ramazanov, K. N. [1 ]
Savina, Ya. N. [1 ]
Kilmametov, A. R. [3 ]
机构
[1] Ufa Univ Sci & Technol, Ufa 450076, Russia
[2] Russian Acad Sci, Ufa Fed Res Ctr, Inst Mol & Crystal Phys, Ufa 450075, Russia
[3] Sorbonne Paris Nord Univ, Lab Technol & Mat Res, F-93430 Villetaneuse, France
来源
PHYSICAL MESOMECHANICS | 2024年 / 27卷 / 06期
基金
俄罗斯科学基金会;
关键词
titanium alloy; protective high-entropy coating; mathematical modeling; deformation heating; combined processing; ultrafine-grained structure; MECHANICAL-BEHAVIOR; MICROSTRUCTURE; TEMPERATURE; ZR; TI-6AL-4V;
D O I
10.1134/S1029959924060092
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
The paper reports on finite element simulation of extrusion of a complex-shaped billet from the ultrafine-grained Ti-6Al-4V alloy and vacuum-arc deposition of a protective coating based on the TiVZrCrAl high-entropy alloy. Temperature fields formed in the billet during extrusion are studied. Deformation heating and the necessary forming force are determined for the initial temperature-rate conditions. The strain rate distribution in the billet during extrusion is also analyzed. According to the obtained data, the chosen temperature-rate conditions allow using the ultrafine-grained titanium alloy as the initial billet without deteriorating its mechanical characteristics. Computer simulation of the coating deposition on the complex-shaped billet provides values of the temperature, chemical composition, and thickness of the high-entropy coating. Thus, the coating thickness varies within 6.5-7.5 mu m, and the surface is heated during deposition to 368-597 degrees C, which allows maintaining the ultrafine-grained structure in the alloy.
引用
收藏
页码:725 / 735
页数:11
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