Wim De Waele scite author profile

BackgroundDetermining the mechanical behaviour of tendon and ligamentous tissue remains challenging, as it is anisotropic, non-linear and inhomogeneous in nature.MethodsIn this study, three-dimensional (3D) digital image correlation (DIC) was adopted to examine the strain distribution in the human Achilles tendon. Therefore, 6 fresh frozen human Achilles tendon specimens were mounted in a custom made rig for uni-axial loading. 3D DIC measurements of each loading position were obtained and compared to 2 linear variable differential transformers (LVDT’s).Results3D DIC was able to calculate tendon strain in every region of all obtained images. The scatter was found to be low in all specimens and comparable to that obtained in steel applications. The accuracy of the 3D DIC measurement was higher in the centre of the specimen where scatter values around 0.03% strain were obtained. The overall scatter remained below 0.3% in all specimens. The spatial resolution of 3D DIC on human tendon tissue was found to be 0.1 mm2. The correlation coefficient between the 3D DIC measurements and the LVDT measurements showed an excellent linear agreement in all specimens (R2 = 0.99). Apart from the longitudinal strain component, an important transverse strain component was revealed in all specimens. The strain distribution of both components was of a strongly inhomogeneous nature, both within the same specimen and amongst different specimens.ConclusionDIC proved to be a very accurate and reproducible tool for 3D strain analysis in human tendon tissue.Electronic supplementary materialThe online version of this article (doi:10.1186/s40634-014-0007-8) contains supplementary material, which is available to authorized users.

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Cumulative Damage and Life Prediction Models for High-Cycle Fatigue of Metals: A Review

Hectors

Waele

2021

Metals

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Fatigue design of engineering structures is typically based on lifetime calculation using a cumulative damage law. The linear damage rule by Miner is the universal standard for fatigue design even though numerous experimental studies have shown its deficiencies and possible non-conservative outcomes. In an effort to overcome these deficiencies, many nonlinear cumulative damage models and life prediction models have been developed since; however, none of them have found wide acceptance. This review article aims to provide a comprehensive overview of the state-of-the art in cumulative damage and lifetime prediction models for endurance based high-cycle fatigue design of metal structures.

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Monitoring of fibre reinforced composites with embedded optical fibre Bragg sensors, with application to filament wound pressure vessels

Degrieck

Waele

Verleysen

2001

NDT & E International

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An evolutionary anisotropic model for sheet metals based on non-associated flow rule approach

Safaei

Lee

Zang

et al. 2014

Computational Materials Science

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Response of FBGs in Microstructured and Bow Tie Fibers Embedded in Laminated Composite

Luyckx

Voet

Geernaert

et al. 2009

IEEE Photon. Technol. Lett.

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Evaluation of anisotropic constitutive models: Mixed anisotropic hardening and non-associated flow rule approach

Safaei

Zang

Lee

et al. 2013

International Journal of Mechanical Sciences

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Detection of corrosion on steel structures using automated image processing

Khayatazad

Pue

Waele

2020

Developments in the Built Environment

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Wim De Waele

Transversal Load Sensing With Fiber Bragg Gratings in Microstructured Optical Fibers

Digital image correlation as a tool for three-dimensional strain analysis in human tendon tissue

Cumulative Damage and Life Prediction Models for High-Cycle Fatigue of Metals: A Review

Monitoring of fibre reinforced composites with embedded optical fibre Bragg sensors, with application to filament wound pressure vessels

An evolutionary anisotropic model for sheet metals based on non-associated flow rule approach

Response of FBGs in Microstructured and Bow Tie Fibers Embedded in Laminated Composite

Evaluation of anisotropic constitutive models: Mixed anisotropic hardening and non-associated flow rule approach

Detection of corrosion on steel structures using automated image processing

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