利用非连续多项式的优化反解减少残余应力测量中的不确定性

IF 1.8 3区 材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Strain Pub Date : 2022-11-08 DOI:10.1111/str.12430
Diego L. Brítez, M. Prime, Sana Werda, R. Laheurte, P. Darnis, O. Cahuc
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引用次数: 0

摘要

许多测量残余应力的破坏性方法,如分切法,都需要逆分析来解决这个问题。结果的准确性以及不确定性分量(模型不确定性)取决于反解中使用的基函数。在以前的工作中,针对函数阶数连续增长的特殊情况,分析了使用级数展开作为反解的基函数。目前的工作提出了一种新的模型不确定性估计方法,以及在基由多项式组成的情况下选择最终基函数的新的改进方法。在基中包含非连续多项式阶会产生更大的待评估可能解的空间,并允许包含更高阶多项式的可能性。本文与其他两种应用于综合生成数据的逆分析方法进行了比较。采用新方法,减少了最终误差,提高了不确定性估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Uncertainty reduction in residual stress measurements by an optimised inverse solution using nonconsecutive polynomials
Many destructive methods for measuring residual stresses such as the slitting method require an inverse analysis to solve the problem. The accuracy of the result as well as an uncertainty component (the model uncertainty) depends on the basis functions used in the inverse solution. The use of a series expansion as the basis functions for the inverse solution was analysed in a previous work for the particular case where functions orders grew consecutively. The present work presents a new estimation of the model uncertainty and a new improved methodology to select the final basis functions for the case where the basis is composed of polynomials. Including nonconsecutive polynomial orders in the basis generates a larger space of possible solutions to be evaluated and allows the possibility to include higher‐order polynomials. The paper includes a comparison with two other inverse analyses methodologies applied to synthetically generated data. With the new methodology, the final error is reduced and the uncertainty estimation improved.
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来源期刊
Strain
Strain 工程技术-材料科学:表征与测试
CiteScore
4.10
自引率
4.80%
发文量
27
期刊介绍: Strain is an international journal that contains contributions from leading-edge research on the measurement of the mechanical behaviour of structures and systems. Strain only accepts contributions with sufficient novelty in the design, implementation, and/or validation of experimental methodologies to characterize materials, structures, and systems; i.e. contributions that are limited to the application of established methodologies are outside of the scope of the journal. The journal includes papers from all engineering disciplines that deal with material behaviour and degradation under load, structural design and measurement techniques. Although the thrust of the journal is experimental, numerical simulations and validation are included in the coverage. Strain welcomes papers that deal with novel work in the following areas: experimental techniques non-destructive evaluation techniques numerical analysis, simulation and validation residual stress measurement techniques design of composite structures and components impact behaviour of materials and structures signal and image processing transducer and sensor design structural health monitoring biomechanics extreme environment micro- and nano-scale testing method.
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