Yongzeng Li scite author profile

The mechanoluminescent (ML) sensor is a newly developed non-invasive technique for stress/strain measurement. However, its application has been mostly restricted to qualitative measurement due to the lack of a well-defined relationship between ML intensity and stress. To achieve accurate stress measurement, an intensity ratio model was proposed in this study to establish a quantitative relationship between the stress condition and its ML intensity in elastic deformation. To verify the proposed model, experiments were carried out on a ML measurement system using resin samples mixed with the sensor material SrAlO:Eu, Dy. The ML intensity ratio was found to be dependent on the applied stress and strain rate, and the relationship acquired from the experimental results agreed well with the proposed model. The current study provided a physical explanation for the relationship between ML intensity and its stress condition. The proposed model was applicable in various SrAlO:Eu, Dy-based ML measurement in elastic deformation, and could provide a useful reference for quantitative stress measurement using the ML sensor in general.

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Effect of oxygen partial pressure on the phosphorescence of different lanthanide ion (Ln3+)-doped yttria-stabilised zirconia

Cai

Yang

et al. 2020

Sensors and Actuators B: Chemical

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Experimental study on hypersonic shock–body interaction between bodies in close proximity using translucent fast pressure- and temperature-sensitive paints

et al. 2020

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A novel sprayable fast-responding pressure-sensitive paint based on mesoporous silicone dioxide particles

Peng

2018

Sensors and Actuators A: Physical

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Yongzeng Li

Ultra-sensitive mechanoluminescent ceramic sensor based on air-plasma-sprayed SrAl2O4:Eu2+, Dy3+ coating

Quantitative stress measurement of elastic deformation using mechanoluminescent sensor: An intensity ratio model

Effect of oxygen partial pressure on the phosphorescence of different lanthanide ion (Ln3+)-doped yttria-stabilised zirconia

Experimental study on hypersonic shock–body interaction between bodies in close proximity using translucent fast pressure- and temperature-sensitive paints

A novel sprayable fast-responding pressure-sensitive paint based on mesoporous silicone dioxide particles

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