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Adjacent Fiber

The Experts below are selected from a list of 102 Experts worldwide ranked by ideXlab platform

Changyuan Yu – One of the best experts on this subject based on the ideXlab platform.

  • Mode Division Multiplexing in a Fiber Modal Interferometer for Dual-Parameters Measurement
    IEEE Photonics Technology Letters, 2016
    Co-Authors: Bo Dong, Yuqi Peng, Yixin Wang, Changyuan Yu

    Abstract:

    We propose a novel scheme for simultaneous strain and temperature measurement by mode division multiplexing (MDM) in a dual cladding modes Fiber up-taper interferometer. The Fiber interferometer, with a strong cladding mode and a weak cladding mode, can be constructed by fabricating two optimized Adjacent Fiber up-tapers along a single-mode Fiber. With the MDM method, the temperature and strain measurement resolutions reach ±0.05 °C and $\pm 3.14~\mu \varepsilon $ , respectively, which are much higher than those of the other proposed dual-parameters (temperature and strain) measurement solutions.

  • Mode Division Multiplexing in a Fiber Modal Interferometer for Dual-Parameters Measurement
    IEEE Photonics Technology Letters, 2016
    Co-Authors: Bo Dong, Yuqi Peng, Yixin Wang, Changyuan Yu

    Abstract:

    We propose a novel scheme for simultaneous strain and temperature measurement by mode division multiplexing (MDM) in a dual cladding modes Fiber up-taper interferometer. The Fiber interferometer, with a strong cladding mode and a weak cladding mode, can be constructed by fabricating two optimized Adjacent Fiber up-tapers along a single-mode Fiber. With the MDM method, the temperature and strain measurement resolutions reach ±0.05 °C and ±3.14 με, respectively, which are much higher than those of the other proposed dual-parameters (temperature and strain) measurement solutions.

Bo Dong – One of the best experts on this subject based on the ideXlab platform.

  • Mode Division Multiplexing in a Fiber Modal Interferometer for Dual-Parameters Measurement
    IEEE Photonics Technology Letters, 2016
    Co-Authors: Bo Dong, Yuqi Peng, Yixin Wang, Changyuan Yu

    Abstract:

    We propose a novel scheme for simultaneous strain and temperature measurement by mode division multiplexing (MDM) in a dual cladding modes Fiber up-taper interferometer. The Fiber interferometer, with a strong cladding mode and a weak cladding mode, can be constructed by fabricating two optimized Adjacent Fiber up-tapers along a single-mode Fiber. With the MDM method, the temperature and strain measurement resolutions reach ±0.05 °C and $\pm 3.14~\mu \varepsilon $ , respectively, which are much higher than those of the other proposed dual-parameters (temperature and strain) measurement solutions.

  • Mode Division Multiplexing in a Fiber Modal Interferometer for Dual-Parameters Measurement
    IEEE Photonics Technology Letters, 2016
    Co-Authors: Bo Dong, Yuqi Peng, Yixin Wang, Changyuan Yu

    Abstract:

    We propose a novel scheme for simultaneous strain and temperature measurement by mode division multiplexing (MDM) in a dual cladding modes Fiber up-taper interferometer. The Fiber interferometer, with a strong cladding mode and a weak cladding mode, can be constructed by fabricating two optimized Adjacent Fiber up-tapers along a single-mode Fiber. With the MDM method, the temperature and strain measurement resolutions reach ±0.05 °C and ±3.14 με, respectively, which are much higher than those of the other proposed dual-parameters (temperature and strain) measurement solutions.

A F Jiang – One of the best experts on this subject based on the ideXlab platform.

  • interaction of interfacial thermal residual stress of the Adjacent Fiber in sic ti 15 3 composites
    International Conference on Experimental Mechnics 2008 and Seventh Asian Conference on Experimental Mechanics, 2008
    Co-Authors: Yongming Xing, F C Lang, A F Jiang

    Abstract:

    Because of a significant mismatch between the thermal expansion coefficients of the Fiber and the matrix, the interfacial
    thermal residual stress (TRS) in SiC/Ti-15-3 composites is induced during cooling procedure when continuous SiC Fiber
    reinforced titanium-based composites are manufactured. The distance between Fibers varies randomly. The TRS in the
    region nearby one Fiber will be affected by the neighbor Fibers. This paper aims to study the Fibers interactional influence
    of neighbor Fibers interfacial thermal residual stress. After pushing out neighbor Fibers, TRS is measured using
    micro-moire interferometry. This process has also been numerically simulated using the finite element software.

  • Interaction of interfacial thermal residual stress of the Adjacent Fiber in SiC/Ti-15-3 composites
    ICEM 2008: International Conference on Experimental Mechanics 2008, 2008
    Co-Authors: Yongming Xing, F C Lang, A F Jiang

    Abstract:

    Because of a significant mismatch between the thermal expansion coefficients of the Fiber and the matrix, the interfacial
    thermal residual stress (TRS) in SiC/Ti-15-3 composites is induced during cooling procedure when continuous SiC Fiber
    reinforced titanium-based composites are manufactured. The distance between Fibers varies randomly. The TRS in the
    region nearby one Fiber will be affected by the neighbor Fibers. This paper aims to study the Fibers interactional influence
    of neighbor Fibers interfacial thermal residual stress. After pushing out neighbor Fibers, TRS is measured using
    micro-moire interferometry. This process has also been numerically simulated using the finite element software.