Fatigue damage evaluation of carbon fiber composite using aluminum foil based strain sensors

Panin, S. V.; Бурков, М. В.; Lyubutin, P. S.; Altukhov, Yu. A.; Шакиров, И. В.

doi:10.1016/j.engfracmech.2014.01.003

Cited by 13 publications

(5 citation statements)

References 12 publications

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“…The loading scheme is cyclic tension with cycle asymmetry of R = 0.1. The details of specimens fabrication, illumination and image capturing techniques can be found in [6,7]. Fig.…”

Section: Methodsmentioning

confidence: 99%

Investigation of Sensitivity of Aluminum Foil Based Strain Sensors at Fatigue Damage Evaluation of CFRP

Бурков¹,

Panin²,

Lyubutin³

et al. 2014

AMR

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For the development of a technique for cyclic deformation assessment using aluminum foil sensors glued onto the specimen surface the fatigue tests of carbon fiber reinforced polymer (CFRP) specimens were carried out. The DSLR camera mounted onto an optical microscope was used for capturing the images of sensors to reflect strain induced relief, which than was numerically estimated using various informative parameters in order to obtain the cyclic deformation assessment of composite. The results are discussed in view of application of this method for the development of Structural Health Monitoring (SHM) approach.

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“…The loading scheme is cyclic tension with cycle asymmetry of R = 0.1. The details of specimens fabrication, illumination and image capturing techniques can be found in [6,7]. Fig.…”

Section: Methodsmentioning

confidence: 99%

Investigation of Sensitivity of Aluminum Foil Based Strain Sensors at Fatigue Damage Evaluation of CFRP

Бурков¹,

Panin²,

Lyubutin³

et al. 2014

AMR

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“…This numerously experimentally proved evidence testifies for the fact that surface layer of the material is the most "sensitive" in order to be used for characterization the kinetics of damage accumulation at various loading modes [8,9]. These above mentioned properties of material self-organization are widely used at development of instrumental techniques for fatigue fracture diagnostics of aircraft structures [10][11][12]. A big number of automated methods for monitoring parts made of cladded aluminum alloys are available.…”

Section: Introductionmentioning

confidence: 91%

“…Recently, various irregular structures of natural origin are effectively quantitatively described with the use of the following parameters: fractal dimension, Shannon entropy, etc. [7,10,12]. In our opinion, the accuracy of the assessment of the critical state approaching in the optical inspection application may be attained by attracting modern techniques of strain induced relief analysis based on calculation of several informative parameters.…”

Section: Introductionmentioning

confidence: 99%

Multi-purpose fatigue sensor. Part 2. Physical backgrounds for damages accumulation and parameters of their assessment

Karuskevich¹,

Игнатович²,

Maslak

et al. 2016

Frattura Ed Integrità Strutturale

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The characteristic informative parameters for defect detection to be used in fatigue sensors have been established. Their development is interpreted in terms of scale levels of deformation and fracture. Damage accumulation of the sensor's surface tends to exhibit the self-organization nature. It is accompanied by formation of "folded" strain-induced relief on the surface. The mechanisms of damage accumulation under cyclic deformation were analyzed with the use of the multiscale approach.

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“…Existen algunos antecedentes de estudios del daño por fatiga mediante el análisis de la superficie en materiales metálicos [102]- [105], Estos estudios se basan en el principio de que los metales sufren cambios superficiales debido a efectos metalúrgicos como nucleación de grietas y a efectos en su estructura cristalina. Estudios más recientes han evaluado la vida a fatiga de CFRP adhiriendo una placa de aluminio que hace el papel de sensor de fatiga, en la cual miden los cambios superficiales basándose en el mismo principio de los estudios antes mencionados para metales [106], [107]. La metodología propuesta en la presente tesis consiste en analizar directamente la superficie del material compuesto, la metodología seguida se explicará con mayor detalle en la sección 5.3.…”

Section: Análisis Mediante La Rugosidad Superficialunclassified

“…Estos estudios se basan en el principio de que los metales sufren cambios superficiales debido a efectos metalúrgicos como nucleación de grietas y a efectos en su estructura cristalina. Estudios más recientes han evaluado la vida a fatiga de CFRP adhiriendo una lámina fina de aluminio que hace el papel de sensor de fatiga, en la cual miden los cambios superficiales basándose en el mismo principio de los estudios antes mencionados para metales [106].…”

Section: Datos Dispersosunclassified

Fatiga en CFRP: Caracterización y Método Óptico para la Estimación del Daño

Ramírez¹

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New optimized aerospace structures use composite materials, mainly carbon fiber reinforced polymer composite (CFRP), for critical components and subsystems. A strong knowledge of the fatigue state of highly advanced (CFRP) structures is essential to predict the residual life and optimize intervals of structural inspection, repairs, and/or replacements. Current techniques are based mostly on measurement of structural loads throughout the service life by electric strain gauge sensors. These sensors are affected by extreme environmental conditions and by fatigue loads in such a way that the sensors and their systems require exhaustive maintenance throughout system life.

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Fatigue damage evaluation of carbon fiber composite using aluminum foil based strain sensors

Cited by 13 publications

References 12 publications

Investigation of Sensitivity of Aluminum Foil Based Strain Sensors at Fatigue Damage Evaluation of CFRP

Investigation of Sensitivity of Aluminum Foil Based Strain Sensors at Fatigue Damage Evaluation of CFRP

Multi-purpose fatigue sensor. Part 2. Physical backgrounds for damages accumulation and parameters of their assessment

Fatiga en CFRP: Caracterización y Método Óptico para la Estimación del Daño

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