Application of Magnetic Microwires in Titanium Implants – Conception of Intelligent Sensoric Implant

Hudák, Radovan; Varga, R.; Živčák, Jozef; Hudák, Jozef; Blažek, J.; Praslička, Dušan

doi:10.1007/978-3-642-30668-6_26

Cited by 6 publications

(2 citation statements)

References 23 publications

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“…Either it is magnetic bistability characterized by single Barkhausen jump at a switching field for microwires with positive magnetostriction or giant magnetoimpedance (GMI) effect for microwires with negative and almost vanishing magnetostriction. Both of these phenomena can be applied in many sensing devices to sense magnetic field, position, mechanical stresses, temperature, and so on Hudak et al, 2013;Praslicka et al, 2013). Naturally, the idea to employ glass-coated microwires for magnetocaloric applications appeared shortly after introduction of rapid quenching for production of Heusler alloys.…”

Section: Glass-coated Magnetic Microwiresmentioning

confidence: 99%

Magnetocaloric effects in magnetic microwires for magnetic refrigeration applications

Varga¹,

Ryba²,

Vargová³

et al. 2015

Magnetic Nano- And Microwires

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Section: Glass-coated Magnetic Microwiresmentioning

confidence: 99%

Magnetocaloric effects in magnetic microwires for magnetic refrigeration applications

Varga¹,

Ryba²,

Vargová³

et al. 2015

Magnetic Nano- And Microwires

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“…Hence, by setting the excitation frequency, one can choose to measure either the temperature or the applied mechanical stress [ 16 ]. The stress dependence of the switching field in carbon fibre composites with embedded microwires has already been studied [ 17 ], and the use of embedded microwires in titanium-based implants has been proposed [ 18 ].…”

Section: Introductionmentioning

confidence: 99%

An Embedded Stress Sensor for Concrete SHM Based on Amorphous Ferromagnetic Microwires

Olivera

Hernández

Fuente

et al. 2014

Sensors

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A new smart concrete aggregate design as a candidate for applications in structural health monitoring (SHM) of critical elements in civil infrastructure is proposed. The cement-based stress/strain sensor was developed by utilizing the stress/strain sensing properties of a magnetic microwire embedded in cement-based composite (MMCC). This is a contact-less type sensor that measures variations of magnetic properties resulting from stress variations. Sensors made of these materials can be designed to satisfy the specific demand for an economic way to monitor concrete infrastructure health. For this purpose, we embedded a thin magnetic microwire in the core of a cement-based cylinder, which was inserted into the concrete specimen under study as an extra aggregate. The experimental results show that the embedded MMCC sensor is capable of measuring internal compressive stress around the range of 1–30 MPa. Two stress sensing properties of the embedded sensor under uniaxial compression were studied: the peak amplitude and peak position of magnetic switching field. The sensitivity values for the amplitude and position within the measured range were 5 mV/MPa and 2.5 μs/MPa, respectively.

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Magnetic Properties of Glass-Coated Amorphous and Nanocrystalline FeMoBCu Microwires

et al. 2014

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Application of Magnetic Microwires in Titanium Implants – Conception of Intelligent Sensoric Implant

Cited by 6 publications

References 23 publications

Magnetocaloric effects in magnetic microwires for magnetic refrigeration applications

Magnetocaloric effects in magnetic microwires for magnetic refrigeration applications

An Embedded Stress Sensor for Concrete SHM Based on Amorphous Ferromagnetic Microwires

Magnetic Properties of Glass-Coated Amorphous and Nanocrystalline FeMoBCu Microwires

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