Detail publikace

Smart non-woven textiles with implemented FBG sensors for critical infrastructure protection

Originální název

Smart non-woven textiles with implemented FBG sensors for critical infrastructure protection

Anglický název

Smart non-woven textiles with implemented FBG sensors for critical infrastructure protection

Jazyk

en

Originální abstrakt

In the paper we present smart textiles for application in critical infrastructures based on fiber Bragg grating sensors. The suitability of the selected polyester fabric was evaluated by experimental measurement. Low elasticity caused an irreversible deformation of the fabric and thus change of the reference value when stretching the textile. With a 4.5 Newton tensile, the reference value change was up to 0.14 pm. Therefore, a combination of two layers of different textiles was tested. The second layer caused less deformation of the first layer by up to 50 percent.

Anglický abstrakt

In the paper we present smart textiles for application in critical infrastructures based on fiber Bragg grating sensors. The suitability of the selected polyester fabric was evaluated by experimental measurement. Low elasticity caused an irreversible deformation of the fabric and thus change of the reference value when stretching the textile. With a 4.5 Newton tensile, the reference value change was up to 0.14 pm. Therefore, a combination of two layers of different textiles was tested. The second layer caused less deformation of the first layer by up to 50 percent.

BibTex


@inproceedings{BUT158662,
  author="Petr {Münster} and Radim {Šifta} and Radek {Helán}",
  title="Smart non-woven textiles with implemented FBG sensors for critical infrastructure protection",
  annote="In the paper we present smart textiles for application in critical infrastructures based on fiber Bragg grating sensors. The suitability of the selected polyester fabric was evaluated by experimental measurement. Low elasticity caused an irreversible deformation of the fabric and thus change of the reference value when stretching the textile. With a 4.5 Newton tensile, the reference value change was up to 0.14 pm. Therefore, a combination of two layers of different textiles was tested. The second layer caused less deformation of the first layer by up to 50 percent.",
  address="SPIE",
  booktitle="Proceedings of SPIE Vol. 11199",
  chapter="158662",
  doi="10.1117/12.2541365",
  howpublished="online",
  institution="SPIE",
  year="2019",
  month="august",
  pages="1--3",
  publisher="SPIE",
  type="conference paper"
}