Ruihong Qin scite author profile

Ruihong Qin

5Publications

32Citation Statements Received

72Citation Statements Given

How they've been cited

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145

Affiliations

Shanxi Electromechanical Design and Research Institute, Taiyuan University of Technology

Publications

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Study on flame retardancy and smoke suppression of PET by the synergy between Fe₂O₃ and new phosphorus-containing silicone flame retardant

Peng

Niu

Qin

et al. 2020

High Performance Polymers

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To reduce the environmental hazard from the flame retardant, a halogen-free phosphorus-containing silicone flame-retardant poly N, N dimethylene phosphate aminopropyl siloxane (PDPSI) was prepared following the Mannich reaction. Then, PDPSI and ferric oxide (Fe2O3) were used for the preparation of synergistic flame-retardant polyethylene terephthalate (PET). The flame-retardant test results revealed that at 2% PDPSI/Fe2O3 content and 1:2 mass ratio of PDPSI to Fe2O3, the limit oxygen index value of the PDPSI/Fe2O3/PET composite material was 27.9%, reaching the flame-retardant level and passing the V-0 rating in the UL-94 test. In addition, the PDPSI/Fe2O3/PET composites had a char residue content of 17.5% at 700°C, an increase of 30.6% compared to that of the pristine PET. In the cone calorimeter test, the addition of PDPSI/Fe2O3 significantly reduced the peak heat release rate (PHRR), total heat release (THR) rate, and total smoke production (TSP) value of the resulting PET composites. PHRR and THR decreased by 66.05% and 14.3%, respectively. The TSP value decreased from 14.4 m2 to 8.1 m2, a decrease of 43.8%. The scanning electron microscopy images and Fourier-transform infrared spectra of the char residue showed a significant synergy between Fe2O3 and PDPSI, changing the structure of the carbon layer in continuous and dense form, thus the flame retardancy and smoke suppression of the PET composites improved. In addition, the tensile strength of the PET composite was 42.11 MPa, which was only 1.84% less than that of the pristine PET.

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Construction of flame retardant coating on polyester fabric with ammonium polyphosphate and carbon microspheres

Qin

Song

Niu

et al. 2020

Polymer Degradation and Stability

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Construction of Carbon Microspheres-Based Silane Melamine Phosphate Hybrids for Flame Retardant Poly(ethylene Terephthalate)

et al. 2019

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To improve the flame retardancy and inhibit the smoke of poly(ethylene terephthalate) (PET), carbon microspheres (CMSs)-based melamine phosphate (MP) hybrids (MP-CMSs) were constructed in situ with the introduction of CMSs into the hydrothermal reaction system of MP. The integrated MP-CMSs were modified by 3-Aminopropyltriethoxysilane (APTS) to obtain the silane MP-CMSs (SiMP-CMSs) to strengthen the interface binding between the MP-CMSs and PET matrix. The results showed that the SiMP layer was loaded on the CMSs surface. The addition of only 3% SiMP-CMSs increased the limiting oxygen index (LOI) value of the PET from 21% ± 0.1% to 27.7% ± 0.3%, reaching a V-0 burning rate. The SiMP-CMSs not only reduced heat damage, but also inhibited the smoke release during PET combustion, whereupon the peak heat release rate (pk-HRR) reduced from 513.2 to 221.7 kW/m2, and the smoke parameters (SP) decreased from 229830.2 to 81892.3 kW/kg. The fire performance index (FPI) rose from 0.07 m2s/kW to 0.17 m2s/kW, demonstrating the lower fire risk. The proportion of the flame-retardant mode in the physical barrier, flame inhibition, and char effects were recorded as 44.53%, 19.04%, and 9.04%, respectively.

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Improving the flame retardancy of PET fiber by constructing the carbon microspheres based melamine polyphosphate powder

Xue

Qin

Shao

et al. 2019

The Journal of The Textile Institute

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Ammonium polyphosphate wrapped carbon microspheres: a novel flame retardant with smoke suppression for poly (ethylene terephthalate)

et al. 2019

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Ruihong Qin

Study on flame retardancy and smoke suppression of PET by the synergy between Fe₂O₃ and new phosphorus-containing silicone flame retardant

Construction of flame retardant coating on polyester fabric with ammonium polyphosphate and carbon microspheres

Construction of Carbon Microspheres-Based Silane Melamine Phosphate Hybrids for Flame Retardant Poly(ethylene Terephthalate)

Improving the flame retardancy of PET fiber by constructing the carbon microspheres based melamine polyphosphate powder

Ammonium polyphosphate wrapped carbon microspheres: a novel flame retardant with smoke suppression for poly (ethylene terephthalate)

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About

Ruihong Qin

Study on flame retardancy and smoke suppression of PET by the synergy between Fe2O3 and new phosphorus-containing silicone flame retardant

Construction of flame retardant coating on polyester fabric with ammonium polyphosphate and carbon microspheres

Construction of Carbon Microspheres-Based Silane Melamine Phosphate Hybrids for Flame Retardant Poly(ethylene Terephthalate)

Improving the flame retardancy of PET fiber by constructing the carbon microspheres based melamine polyphosphate powder

Ammonium polyphosphate wrapped carbon microspheres: a novel flame retardant with smoke suppression for poly (ethylene terephthalate)

Contact Info

Product

Resources

About

Study on flame retardancy and smoke suppression of PET by the synergy between Fe₂O₃ and new phosphorus-containing silicone flame retardant