机械测试应用于结构健康监测:以往经验综述

Q4 Engineering

Fatigue of Aircraft Structures Pub Date : 2020-12-01 DOI:10.2478/fas-2020-0012

Marta Baran, D. Nowakowski, J. Lisiecki, S. Kłysz

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引用次数: 0

摘要

摘要材料强度测试实验室(LMST)从2003年开始进行航空机械研究。认可的程序包括低周和高周疲劳试验、断裂韧性试验和疲劳裂纹扩展速率试验。它们的主要目标是获得材料的常数和特性。然而，如何进行这些测试的知识也可以用于其他应用，例如在结构健康监测系统(SHM)的开发工作中。当裂缝在实验室条件下以可控的方式传播时，它允许验证单个传感器或传感器网络的操作。在本文中，概述了在空军技术学院(AFIT)材料强度测试实验室进行的机械测试，以研究和开发SHM系统。在不同的机械载荷(即循环载荷和冲击载荷)下，对铝合金(以及其他已退出的PZL-130 Orlik TC-II飞机)和CFRP复合材料制备的样品进行了测试。在本研究中，恒幅载荷和频谱载荷均被应用。

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Mechanical Tests Applied to Structural Health Monitoring: An Overview of Previous Experience

Abstract Laboratory for Materials Strength Testing (LMST) has been conducting accredited mechanical research for aviation from 2003. Among accredited procedures are e.g. low and high cycle fatigue tests, fracture toughness tests and fatigue crack growth rate tests. The main goal of them is obtaining materials constants and characteristics. However knowledge how to conduct these tests could be used also in other applications, for instance in the work on development of Structural Health Monitoring systems (SHM). When cracks propagate in a controlled way in laboratory conditions, it allows verifying the operation of a single sensor or a network of sensors. In this paper, an overview of mechanical tests carried out at the Laboratory for Materials Strength Testing within Air Force Institute of Technology (AFIT) work on research and development of SHM systems is presented. Specimens prepared from materials such as aluminum alloys (among other withdrawn PZL-130 Orlik TC-II aircraft) and CFRP composite were tested under different mechanical loads, i.e., cycle and impact loads. In the presented research, both constant amplitude and spectrum loads were applied.

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来源期刊

Fatigue of Aircraft Structures Engineering-Safety, Risk, Reliability and Quality

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The publication focuses on problems of aeronautical fatigue and structural integrity. The preferred topics include: full-scale fatigue testing of aircraft and aircraft structural components, fatigue of materials and structures, advanced materials and innovative structural concepts, damage tolerant design of aircraft structure, life extension and management of ageing fleets, structural health monitoring and loads, fatigue crack growth and life prediction methods, NDT inspections, airworthiness considerations.