Using the Poisson’s Ratio and Acoustic Anisotropy Parameter to Assess Damage and Accumulated Plastic Strain during Fatigue Failure of Austenitic Steels

IF 0.9 4区 材料科学 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Russian Journal of Nondestructive Testing Pub Date : 2024-10-16 DOI:10.1134/S1061830924700712
V. V. Mishakin, V. A. Klyushnikov, A. V. Gonchar, O. A. Sergeeva
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Abstract

The effect of fatigue failure on the elastic characteristics of metastable austenitic steel AISI 321, Poisson’s ratio and acoustic anisotropy parameter, was studied. The elastic characteristics were calculated based on the data of ultrasonic measurements of the propagation time of longitudinal and shear elastic waves. The volume fraction of the strain-induced martensite was determined by the eddy current method. Theoretical studies have shown that the main factors influencing Poisson’s ratio are the accumulation of microdamage and changes in the phase composition. The change in the acoustic anisotropy parameter is associated with the effect of cyclic deformation on the crystallographic texture of the material matrix and the formation of oriented crystals of strain-induced martensite. Based on the analysis of experimental results, expressions have been obtained for calculating damage and relative accumulated plastic strain according to acoustic measurements, which are widely used in engineering practice to determine the fatigue life of structural materials.

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利用泊松比和声学各向异性参数评估奥氏体钢疲劳破坏过程中的损伤和累积塑性应变
研究了疲劳破坏对可变质奥氏体钢 AISI 321 的弹性特性、泊松比和声各向异性参数的影响。弹性特性是根据纵波和剪切弹性波传播时间的超声波测量数据计算得出的。应变诱导马氏体的体积分数是通过涡流法测定的。理论研究表明,影响泊松比的主要因素是微损伤的积累和相组成的变化。声学各向异性参数的变化与循环变形对材料基体结晶纹理的影响以及应变诱导马氏体取向晶体的形成有关。在对实验结果进行分析的基础上,获得了根据声学测量计算损伤和相对累积塑性应变的表达式,这些表达式在工程实践中被广泛用于确定结构材料的疲劳寿命。
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来源期刊
Russian Journal of Nondestructive Testing
Russian Journal of Nondestructive Testing 工程技术-材料科学:表征与测试
CiteScore
1.60
自引率
44.40%
发文量
59
审稿时长
6-12 weeks
期刊介绍: Russian Journal of Nondestructive Testing, a translation of Defectoskopiya, is a publication of the Russian Academy of Sciences. This publication offers current Russian research on the theory and technology of nondestructive testing of materials and components. It describes laboratory and industrial investigations of devices and instrumentation and provides reviews of new equipment developed for series manufacture. Articles cover all physical methods of nondestructive testing, including magnetic and electrical; ultrasonic; X-ray and Y-ray; capillary; liquid (color luminescence), and radio (for materials of low conductivity).
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