磁自适应检测的改进:铁磁结构材料微结构变化无损检测的渐进式方法

IF 2.6 3区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Elemír Ušák, Lenka Hašková, Daniel Vašut, Mariana Ušáková
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引用次数: 0

摘要

磁自适应测试(MAT),由于其相对简单,从硬件和软件的角度来看,似乎是非常有前途的无损分析各种铁磁结构材料在许多工业应用中使用。为了使测试对象的检测更快,更直接,数据处理更容易,我们集中精力改进实验程序,基于在恒定场变化率(即斜率)的分段线性(三角形)励磁场磁化曲线测量的具体方法,以及创建用于MAT数据分析的通用软件工具。与MAT的原始实现相反,从样品饱和区域开始测量迟滞回线,最大场值逐渐减小;因此,可以完全跳过耗时的样品退磁。此外,还提出了一种先进的处理实验所得磁化曲线的工具。使用此应用程序可以找到适当的非传统磁性参数(例如,差磁导率),这些参数对各种类型的工业负载(例如,热,机械和/或中子辐照)最敏感,同时,与其他传统磁性和非磁性参数充分相关,这些参数通常用于评估与施加的,通常是长期的,甚至在微观尺度上的负载相关的可能的结构变化。在任何肉眼可见的损伤出现之前。软件功能在代表材料的数据上进行了演示,材料对作用热负荷的响应很难分析,因为观察到的参数(渗透率差)对定义的人工老化的依赖性相当复杂。然而,差磁导率对这种载荷的敏感性比传统滞回参数即剩余磁通密度的敏感性高8倍以上,两者之间的相关性较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Modification of Magnetic Adaptive Testing: Progressive Method for Nondestructive Inspection of Microstructural Changes in Ferromagnetic Constructional Materials

A Modification of Magnetic Adaptive Testing: Progressive Method for Nondestructive Inspection of Microstructural Changes in Ferromagnetic Constructional Materials

Magnetic adaptive testing (MAT), thanks to its relative simplicity from the point of view of both hardware and software, appears to be very promising for non-destructive analysis of various ferromagnetic constructional materials used in many industrial applications. In order to make the inspection of tested objects faster, even more straightforward and the processing of data easier, we concentrated our effort both to improve the experimental procedure, based on specific way of the measurement of magnetization curves at piece-wise linear (triangular) exciting field with a constant field rate of change (i.e., slope) as well as to create a universal software tool for MAT data analysis. On contrary to the original implementation of MAT, the hysteresis loops are measured with decreasing maximum field values, starting at sample saturation region; therefore, time consuming sample demagnetization can be skipped completely. In addition, an advanced tool for the processing of experimentally obtained magnetization curves is presented. Using this application allows to find proper non-traditional magnetic parameters (e.g., the differential permeability) being the most sensitive to various types of industrial load (e.g., thermal, mechanical and/or neutron irradiation) and, at the same time, sufficiently correlated with other, traditional magnetic as well as non-magnetic parameters used routinely for the assessment of possible structural changes associated with applied, often long-term, load even on a microscopic scale, prior to any damage manifests on a macroscopic, visible level. The software capabilities were demonstrated on the data representing the material, whose response to acting thermal load is being difficult to analyze, since the dependence of observed parameters (differential permeability) upon defined artificial ageing was rather complicated. Nevertheless, the sensitivity of differential permeability to such a load was found being more than 8 times larger than in case of traditional hysteretic parameter, namely the remanent flux density while the correlation between them was high.

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来源期刊
Journal of Nondestructive Evaluation
Journal of Nondestructive Evaluation 工程技术-材料科学:表征与测试
CiteScore
4.90
自引率
7.10%
发文量
67
审稿时长
9 months
期刊介绍: Journal of Nondestructive Evaluation provides a forum for the broad range of scientific and engineering activities involved in developing a quantitative nondestructive evaluation (NDE) capability. This interdisciplinary journal publishes papers on the development of new equipment, analyses, and approaches to nondestructive measurements.
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