Nadine Kusche scite author profile

Nadine Kusche

5Publications

31Citation Statements Received

33Citation Statements Given

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Affiliations

Federal Institute For Materials Research and Testing

Publications

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Validation and qualification of surface-applied fibre optic strain sensors using application-independent optical techniques

Schukar¹,

Kadoke²,

Kusche³

et al. 2012

Meas. Sci. Technol.

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Surface-applied fibre optic strain sensors were investigated using a unique validation facility equipped with application-independent optical reference systems. First, different adhesives for the sensor's application were analysed regarding their material properties. Measurements resulting from conventional measurement techniques, such as thermo-mechanical analysis and dynamic mechanical analysis, were compared with measurements resulting from digital image correlation, which has the advantage of being a non-contact technique. Second, fibre optic strain sensors were applied to test specimens with the selected adhesives. Their strain-transfer mechanism was analysed in comparison with conventional strain gauges. Relative movements between the applied sensor and the test specimen were visualized easily using optical reference methods, digital image correlation and electronic speckle pattern interferometry. Conventional strain gauges showed limited opportunities for an objective strain-transfer analysis because they are also affected by application conditions.

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Fibre-optic strain sensors are making the leap from lab to industrial use—reliability and validation as a precondition for standards

Habel¹,

Schukar²,

Kusche³

2013

Meas. Sci. Technol.

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Currently, fibre-optic sensors (FOSs) are commonly used if special requirements make the application of electrical sensors impossible, or economic benefit is promised. The scientific background of FOS technology is well developed; however, there are still some restrictions with respect to long-term reliable use. For widespread practical use, sensor products must be manufactured, characterized and validated according to standards. Guidelines on how to apply sensors and evaluate their operation on-site including special facilities to evaluate applied sensors are needed. This paper will focus on important aspects, such as when FOSs may be used under real practical conditions, and will present validation methodologies to evaluate the overall quality of the sensor system's function. It will also indicate the lack of knowledge and methods to be elaborated to promote the use of FOS.

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How Reliably do Fiber Bragg Grating Patches Perform as Strain Sensors?

2012

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Calibration facility for quality certification of surface-attached fiber optic and electrical strain sensors

Habel

Schukar

Kusche

2011

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Field Deployable Fiber Bragg Grating Strain Patch for Long-Term Stable Health Monitoring Applications

et al. 2013

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Abstract:A fiber Bragg grating (FBG) strain patch specially adapted for long-term and high-strain applications has been developed and characterized. The design concept for the patch is based on a glass-fiber reinforced plastic (gfrp) carrier material. The developed concept for the FBG integration into the carrier material was derived from reliable integration procedure of FBG sensors into composite structures. The patches' temperature sensitivity, strain gauge factor, fiber-matrix interface adhesion and fatigue behavior were characterized. As a result, FBG strain patches with linear temperature and strain behavior, as well as excellent fatigue resistance, were developed and can be used as part of a monitoring system for advanced composite materials in aerospace structures or wind turbine power plants.

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Nadine Kusche

Validation and qualification of surface-applied fibre optic strain sensors using application-independent optical techniques

Fibre-optic strain sensors are making the leap from lab to industrial use—reliability and validation as a precondition for standards

How Reliably do Fiber Bragg Grating Patches Perform as Strain Sensors?

Calibration facility for quality certification of surface-attached fiber optic and electrical strain sensors

Field Deployable Fiber Bragg Grating Strain Patch for Long-Term Stable Health Monitoring Applications

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