Ginu Rajan scite author profile

This paper provides an overview of the different types of fiber optic sensors (FOS) that can be used with composite materials and also their compatibility with and suitability for embedding inside a composite material. An overview of the different types of FOS used for strain/temperature sensing in composite materials is presented. Recent trends, and future challenges for FOS technology for condition monitoring in smart composite materials are also discussed. This comprehensive review provides essential information for the smart materials industry in selecting of appropriate types of FOS in accordance with end-user requirements.

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Low-cost wavelength measurement based on a macrobending single-mode fiber

Wang¹,

Farrell²,

Freir³

et al. 2006

Opt. Lett.

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Automated fibre placement based composite structures: Review on the defects, impacts and inspections techniques

Oromiehie

Prusty

Compston

et al. 2019

Composite Structures

151

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Fabrication of a cement- and screw-retained implant prosthesis

Rajan¹,

Rajan

2004

The Journal of Prosthetic Dentistry

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A fast response intrinsic humidity sensor based on an etched singlemode polymer fiber Bragg grating

Rajan

Noor

et al. 2013

Sensors and Actuators A: Physical

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High Sensitivity Force and Pressure Measurements Using Etched Singlemode Polymer Fiber Bragg Gratings

et al. 2013

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Humidity sensor based on photonic crystal fibre interferometer

et al. 2010

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Characterization of process-induced defects in automated fiber placement manufacturing of composites using fiber Bragg grating sensors

Oromiehie

Prusty

Compston

et al. 2017

Structural Health Monitoring

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With the increasing use of automated fiber placement method for manufacturing highly precise bespoke composite components in the aerospace industry, the level of manufacturing defects within the laminate structure needs to be monitored and minimized for structural integrity. One of the main common defects in automated fiber placement process is misalignment between the tape paths in successive courses which leads to non-integrity of laminate and consequently significant reduction in mechanical strength of the laminate. Therefore, it is necessary to find an appropriate inspection method to monitor and identify these processing defects at the earlier stages of manufacturing. Since optical fiber Bragg grating sensors are being increasingly utilized for structural health monitoring in composite materials and as they were successfully implemented by Oromiehie et al. in their earlier work for on-line lay-up process monitoring, the same methodology is once again tried for identifying the misalignment defects in automated fiber placement process. The experiments are carried out on glass-fiber/nylon laminate with embedded fiber Bragg gratings for the automated tape placement method. The defects due to misalignment are identified by the fiber Bragg grating sensors through their reflected wavelength changes during the automated manufacturing process. The analysis of results indicates that the fiber Bragg grating sensors can be reliably implemented for on-line defect monitoring during the automated fiber placement process to ensure the quality of final product and maintain the expected design life.

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Ginu Rajan

Overview of Fiber Optic Sensor Technologies for Strain/Temperature Sensing Applications in Composite Materials

Low-cost wavelength measurement based on a macrobending single-mode fiber

Automated fibre placement based composite structures: Review on the defects, impacts and inspections techniques

Fabrication of a cement- and screw-retained implant prosthesis

A fast response intrinsic humidity sensor based on an etched singlemode polymer fiber Bragg grating

High Sensitivity Force and Pressure Measurements Using Etched Singlemode Polymer Fiber Bragg Gratings

Humidity sensor based on photonic crystal fibre interferometer

Characterization of process-induced defects in automated fiber placement manufacturing of composites using fiber Bragg grating sensors

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