Kai Shou scite author profile

The 7d unconfined compressive strength tests of alkali-activated tungsten tailings and the microscopic characteristics tests of scanning electron microscope (SEM), Fourier transform infrared spectroscopy (FTIR) and X-ray diffraction (XRD) were conducted to investigate the variation law and mechanism of unconfined compressive strength of alkali-activated tungsten tailings under the conditions of seven alkali-solid ratios with the same moisture content. The test results indicate that the unconfined compressive strength of alkali-activated tungsten tailings is increased with the alkali-solid ratio. However, the strength decreases slightly when the alkali-solid ratio is 12%. Alkali activation does not change the crystal type on the micro-scale but forms gels including C-A-S-H and N-A-S-H. The microstructures of the gel are affected by the alkali-solid ratio: The microstructure is honeycomb in low alkali-solid ratio (7%, 8% and 10%), with N-A-S-H as its primary form, and flocculation in high alkali-solid ratio (14% and 15%), mainly in the form of C-A-S-H. When the solid alkali ratio is at the medium level (12%), the microstructure is a small round bead, and the N-A-S-H is equivalent to the C-A-S-H. The generation of C-A-S-H and N-A-S-H gels is the key to increase the strength of alkali activated tungsten tailings. The more C-A-S-H content, the greater the strength. This study can provide a scientific basis and technical reference for the resource utilization of tungsten tailings.

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The effect of alkali concentration on the properties of activated tungsten tailings

Shou

Wang

et al. 2022

Environ Sci Pollut Res

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The 7d unconfined compressive strength tests of alkali-activated tungsten tailings and the microscopic characteristics tests of scanning electron microscope (SEM), Fourier transform infrared spectroscopy (FTIR), and X-ray diffraction (XRD) were conducted to investigate the effect of alkali-solid ratio on the properties of alkali-activated tungsten tailings. The test results indicate that the unconfined compressive strength of alkali-activated tungsten tailings increased with the alkali-solid ratio. However, the strength decreases slightly when the alkali-solid ratio is 12%. The microstructures of the gels generated in the alkali-activated tungsten tailings are affected by the alkali-solid ratio. The details are as follows: the microstructure is honeycomb in low alkali-solid ratio (7%, 8% and 10%), with N-A-S–H as its primary form, and flocculation in high alkali-solid ratio (14% and 15%), mainly in the form of C-A-S–H. When the alkali-solid ratio is at the medium level (12%), the microstructure is a small round bead, and the N-A-S–H is equivalent to the C-A-S–H. The more C-A-S–H content, the greater the strength. This study can provide a scientific basis and technical reference for the resource utilization of tungsten tailings.

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Study on Fault Detection for Line Section in Active Distribution Network Based on the Generalized State-space Model

Zhu¹,

Yan²,

Shou

et al. 2018

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Kai Shou

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Compressive strength characteristics and mechanism of tungsten tailings activated by multi concentration alkali

The effect of alkali concentration on the properties of activated tungsten tailings

Study on Fault Detection for Line Section in Active Distribution Network Based on the Generalized State-space Model

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