STRENGTH AND DUCTILITY CHARACTERISTICS OF METAL ALLOYS AND STAINLESS STEELS CREATED BY WIRE-ARC SURFACING IN A WIDE RANGE OF STRAIN RATES

Q3 Materials Science

PNRPU Mechanics Bulletin Pub Date : 2023-12-15 DOI:10.15593/perm.mech/2023.1.04

Y. Bayandin, D. Dudin, A. Ilyinykh, G. Permyakov, V. Chudinov, I. Keller, D. Trushnikov

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Abstract

To select rational parameters of the process of hybrid additive manufacturing of structures made of structural metal alloys and stainless steels, mechanical characteristics capable of serving as indicators of material quality were determined. The most advanced technologies of additive manufacturing by wire-arc surfacing (plasma, plasma arc with a melting electrode, including cold metal transfer) with layer-by-layer forging with a pneumatic impact tool and subsequent heat treatment were used. Aluminum-magnesium alloy AlMg5, titanium alloy Ti-6Al-4V, austenitic stainless steels 12Cr18Ni10Ti (AISI 321) and AISI 308LSi have been studied. Samples were cut from the blanks created by additive manufacturing – blades for standard tests for static uniaxial tension and cylinders for high-speed compression tests by the Kolsky method on a Hopkinson split bar. According to the registered and processed stress–strain curves for all materials, standard strength and ductility characteristics and the Johnson – Cook law of deformation and speed hardening were determined. For a correct assessment of the mechanical properties of additively produced materials, these tests were also carried out for each of them in the form of annealed rolled products. It is established that to compare the efficiency of various technological parameters of additive manufacturing, it is advisable to use static tensile strength and uniform elongation to rupture, having the smallest statistical variation. It was also found acceptable to approximate the Johnson – Cook law of the deformation curves of each of the studied materials according to averaged data, including various technological modes. Certain mechanical characteristics seem to be necessary for the search for effective modes of hybrid additive manufacturing and numerical calculation of various elastic-plastic problems in a dynamic formulation for the studied materials for design and technological needs.

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金属合金和不锈钢在大应变率范围内电弧堆焊产生的强度和延展性特性

为了选择合理的结构金属合金与不锈钢复合增材制造工艺参数，确定了能够作为材料质量指标的力学特性。采用了最先进的增材制造技术，即线弧堆焊(等离子体，等离子体电弧与熔化电极，包括冷金属转移)，采用气动冲击工具逐层锻造和随后的热处理。对铝镁合金AlMg5、钛合金Ti-6Al-4V、奥氏体不锈钢12Cr18Ni10Ti (AISI 321)和AISI 308LSi进行了研究。样品是从增材制造产生的毛坯中切割出来的——用于静态单轴拉伸标准试验的叶片和用于高速压缩试验的圆柱体，采用科尔斯基方法在霍普金森劈裂棒上进行。根据加工后的应力应变曲线，确定了材料的标准强度和塑性特性以及变形和速度硬化的Johnson - Cook定律。为了正确评估增材生产材料的机械性能，这些测试也以退火轧制产品的形式进行。结果表明，为了比较增材制造各工艺参数的效率，采用静态抗拉强度和均匀断裂伸长率为宜，其统计变化最小。根据各种工艺模式下的平均数据，可以近似得出所研究材料变形曲线的Johnson - Cook定律。某些力学特性对于寻找混合增材制造的有效模式以及对所研究材料的动态公式中的各种弹塑性问题进行数值计算似乎是必要的，以满足设计和技术需求。

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来源期刊

PNRPU Mechanics Bulletin Materials Science-Materials Science (miscellaneous)

CiteScore

1.10

自引率

0.00%

发文量