Applications of Infrared Thermography for Non-destructive Characterization of Concrete Structures

Ravibabu Mulaveesala, G. Dua, V. Arora
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引用次数: 2

Abstract

Usage of reinforced concrete structures has very long tradition in infrastructure industry due to their low cost, high strength, robustness, sustainability along with the easy availability of raw materials. However, they also have some drawbacks such as poor tensile strength and ductility, which leads to the formation of cracks in the structures. These cracks may cause penetration of chlorides, resulting into corrosion in the reinforcement. Quality control, maintenance and planning for the restoration of these structures demands a suitable non-destructive testing and evaluation method for wide-area monitoring to detect the hidden corrosion of the rebar at an early stage. Infrared thermal wave imaging has emerged as a viable technique for non-destructive testing and evaluation of reinforced concrete structures due to its full-field, remote, fast inspection capabilities to monitor the sub-surface rebar corrosion. Among the various thermal non-destructive testing techniques the present chapter proposes a novel aperiodic thermal wave imaging technique named as Gaussian windowed frequency modulated thermal wave imaging for testing and evaluation of rebar corrosion in concrete structures.
红外热成像技术在混凝土结构无损表征中的应用
由于钢筋混凝土结构具有成本低、强度高、坚固、可持续性以及原材料容易获得等特点,在基础设施行业中使用钢筋混凝土结构有着悠久的传统。然而,它们也有一些缺点,如抗拉强度和延展性差,导致结构中形成裂纹。这些裂纹可能导致氯化物渗透,导致钢筋腐蚀。这些结构的质量控制、维护和修复规划需要一种合适的无损检测和评估方法来进行广域监测,以便在早期发现钢筋的隐性腐蚀。红外热波成像技术由于其具有现场、远程、快速监测钢筋地下腐蚀的能力,已成为钢筋混凝土结构无损检测和评估的一种可行技术。在各种热无损检测技术中,本章提出了一种新的非周期热波成像技术,称为高斯窗调频热波成像,用于混凝土结构中钢筋腐蚀的检测和评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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