Application of Digital Image Correlation for Strain Mapping of Structural Elements and Materials

Bogusz, Paweł; Krasoń, Wiesław; Pazur, Kamil

doi:10.3390/ma17112577

Materials

2024

DOI: 10.3390/ma17112577

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Application of Digital Image Correlation for Strain Mapping of Structural Elements and Materials

Paweł Bogusz,

Wiesław Krasoń,

Kamil Pazur

Abstract: The strain gauge method and the digital image correlation (DIC) method are commonly employed for measuring strain in tested objects, including material specimens and structural elements. The optical method enables the assessment of 3D strain fields across the entire area of interest, achieved through cameras and advanced software. The study investigates both quasi-static strength tests and more advanced research of structures. It explores full-scale construction testing, featuring highly stressed components of… Show more

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Cited by 2 publications

References 29 publications

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Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique

Varedi,

Buffel,

Desplentere

2024

Journal of Polymer Science

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In this study, we examine the biaxial, large, and rapid deformation characteristics of heavy‐gauge ABS sheets within the temperature range of 120°C to 160°C, relevant to the industrial forming process. A custom‐built bubble inflation apparatus with a 300 mm diameter was designed for this purpose. Temperature uniformity across the sheet was verified using a thermal camera, while the temperature profile through the material's thickness was monitored during the heating using thermocouples near the top and bottom surfaces of the sheet. The bubble inflation test, combined with displacement, strain fields, and deformation rates at different locations, enables detailed characterization of the bubble's shape under large deformation. To address early‐stage geometric instabilities due to sagging from thermal expansion, airflow was regulated with a precise flow control valve before inflation, while 3D‐DIC monitored the real‐time displacements to correct for sag deformation. The inflation pressure profile was recorded and synchronized with 3D‐DIC strain evolution data for each test, allowing for analysis of the characteristic stress–strain curve at the pole. By evaluating the material's equi‐biaxial properties at the pole and biaxial strain measurements away from the pole, the collected data provides a strong basis for future calibration of constitutive material models through an inverse approach, enabling accurate integration into process simulations.

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Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique

Varedi,

Buffel,

Desplentere

2024

Journal of Polymer Science

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show abstract

Going deeper on magneto-optical Faraday effect analysis to detect fatigue crack with high-spatial resolution for non-destructive inspection

Dharmawan,

Lee

2025

NDT & E International

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Application of Digital Image Correlation for Strain Mapping of Structural Elements and Materials

Cited by 2 publications

References 29 publications

Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique

Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique

Going deeper on magneto-optical Faraday effect analysis to detect fatigue crack with high-spatial resolution for non-destructive inspection

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About

Application of Digital Image Correlation for Strain Mapping of Structural Elements and Materials

Cited by 2 publications

References 29 publications

Biaxial Thermo–Mechanical Response of ABS Sheet Above Tg Using DIC–Based Bubble Inflation Technique

Biaxial Thermo–Mechanical Response of ABS Sheet Above Tg Using DIC–Based Bubble Inflation Technique

Going deeper on magneto-optical Faraday effect analysis to detect fatigue crack with high-spatial resolution for non-destructive inspection

Contact Info

Product

Resources

About

Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique

Biaxial Thermo–Mechanical Response of ABS Sheet Above T_g Using DIC–Based Bubble Inflation Technique