铝青铜纳米晶粒堆焊过程中的变形和生长模拟

IF 0.8 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Letters on Materials Pub Date : 2022-12-01 DOI:10.22226/2410-3535-2022-4-354-359

A. Nikonov, D. Lychagin, A. Bibko, O. Novitskaya

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引用次数: 1

摘要

在增材制造中，重要的是确定控制结晶过程的技术和结构因素，并指定所需的产品结构。结晶结构受起始原料参数和结晶条件的影响。利用铝青铜电子束堆焊后形成的基体晶粒取向，通过分子动力学模拟设置建模参数。考虑了约束条件下相邻晶粒的变形过程以及与熔滴相互作用和结晶过程中的结构变化。通过对晶粒变形的分析，揭示了几何剪切应力集中器的作用，并确定了约束条件对多晶晶粒变形的重要性。在熔体滴入的影响下，层错的热稳定性最差，孪晶的热稳定性最好。结晶晶粒的取向与基体晶粒的取向一致。结晶过程中，柱状晶粒不断长大，形成层错和孪晶。

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Simulation of deformation and growth during surfacing of aluminum bronze nanograins

In additive manufacturing, it is important to determine the technological and structural factors that control the crystallization process and specify the required structure of the product. The crystallization structure is affected by the parameters of the starting material and the crystallization conditions. Using the orientation of the grains of the substrate, which is formed after electron-beam surfacing of aluminum bronze, the modeling parameters were set by the molecular dynamics simulation. The process of deformation of three adjacent grains under constrained conditions and structural changes in the process of interaction with a melt drop and subsequent crystallization were considered. An analysis of grain deformation made it possible to reveal the role of geometric shear stress concentrators and to determine the significance of constrained conditions for deformation of polycrystal grains. It has been established that under the influence of a drop of melt, stacking faults are the least thermally stable, and twins are the most stable. The crystallographic orientation of the crystallizing grains coincides with the orientation of the substrate grains. During crystallization, columnar grains continue to grow, in which stacking faults and twins are formed.

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来源期刊

Letters on Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

1.60

自引率

14.30%

发文量

期刊介绍： The aim of "Letters on materials" is to provide a fast publication of short research and review articles on various topics in materials science and related areas of material physics and mechanics. The editorial board sees it''s own task in rapid informing of the readers on the state-of-the-art challenges and achievements in materials science. The editorial board does its best to select high quality papers reporting new scientific results that are of interest for researchers in materials science, physics, and mechanics. "Letters on materials" invites Russian and foreign researches to publish papers in both the Russian and English languages. The scope of the journal covers the following research areas: structure analysis of materials, mechanical and physical properties of materials, production and processing of materials, experimental methods of investigation of materials, theory and computational methods in solid state physics. "Letters on materials" is designed for researchers, engineers, lecturers, and students working in the areas of materials science, mechanical engineering, metal forming, physics, and material mechanics.