Flexural Behavior of Natural Hybrid FRP-Strengthened RC Beams and Strain Measurements Using BOTDA

Chaiyasarn, Krisada; Ali, Nazam; Phuphasuwan, Phatthanayu; Poovarodom, Nakhorn; Joyklad, Panuwat; Mohamad, Hisham; Zhou, Mingliang; Hussain, Qudeer

doi:10.3390/polym13203604

Cited by 9 publications

(2 citation statements)

References 39 publications

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“…Researchers have predicted the behaviour of bio-based FRP systems in various ways. Some authors predicted the behaviour of RC strengthened beam numerical modelling with software like ABACUS [3,86], ANSYS [6,76] and ATENA [70,91], while some have used artificial neural network modelling [74,95]. Some authors have also adopted analytical methods.…”

Section: Materials Design and Predictive Modelsmentioning

confidence: 99%

Natural fibres and biopolymers in FRP composites for strengthening concrete structures: A mixed review

Nwankwo

Mahachi

Olukanni

et al. 2023

Construction and Building Materials

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Section: Materials Design and Predictive Modelsmentioning

confidence: 99%

Natural fibres and biopolymers in FRP composites for strengthening concrete structures: A mixed review

Nwankwo

Mahachi

Olukanni

et al. 2023

Construction and Building Materials

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“…The demodulation of Rayleigh scattering signals using OFDR technology can achieve millimeter level high spatial resolution and high-precision measurement. The detection of microstrain of several thousand levels can be achieved by demodulating traditional single-mode optical fibers [25][26]. Nevertheless, it remains a huge challenge for distributed fiber optic strain measurement technology with large ranges.…”

Section: Introductionmentioning

confidence: 99%

Real-Time Monitoring of Strain Processes With Large-Range and High-Spatial Resolution Using the Method of Weak Reflection FBG Measurement Based on OFDR

Chen,

Li,

Yang

et al. 2024

IEEE Trans. Instrum. Meas.

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The real-time monitoring of strain processes that can simultaneously realize a wide range and high spatial resolution has always been a huge challenge and cannot be satisfied by traditional electrical and non-contact measurement methods. In this article, the OFDR collocated with weak reflection FBG sensor (WRFBGs) was proposed to actively carry out multiple experiments on the non-standard reinforcement samples with complex strain processes in order to overcome this challenge. According to the result analysis, the complex strain variation law of the surface of the sample and the large span strain of adjacent locations during the whole process of tensile can be obtained by this method. The yield point (YP) can be accurately captured and positioned with mm-level horizontal precision. At the same time, real-time monitoring can be realized for the step process when the strain of the point increases to more than 25000με instantly. The method can also realize the strain detection capability with a response speed of 38 Hz and a 1.28 mm high spatial resolution with monitoring the real-time high-density and large strain distribution.

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Seismic retrofitting of concrete structures with biomaterials

Saleem,

Pimanmas,

Chindaprasirt

2024

Eco-Efficient Repair and Rehabilitation of Concrete Infrastructures

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Flexural Behavior of Natural Hybrid FRP-Strengthened RC Beams and Strain Measurements Using BOTDA

Cited by 9 publications

References 39 publications

Natural fibres and biopolymers in FRP composites for strengthening concrete structures: A mixed review

Natural fibres and biopolymers in FRP composites for strengthening concrete structures: A mixed review

Real-Time Monitoring of Strain Processes With Large-Range and High-Spatial Resolution Using the Method of Weak Reflection FBG Measurement Based on OFDR

Seismic retrofitting of concrete structures with biomaterials

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