Yuanzhang Bai scite author profile

Yuanzhang Bai

2Publications

10Citation Statements Received

132Citation Statements Given

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129

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Sichuan University

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Catalytically synergistic effects of novel LaMnO₃ composite metal oxide in intumescent flame‐retardant polypropylene system

2014

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The newly prepared LaMnO3 was introduced as a novel perovskite composite metal oxide catalyst for the first time to improve the flame retardancy of flame‐retarded (FR) polypropylene with intumescent flame‐retardant (IFR) system consisting of ammonium polyphosphate (APP), pentaerythritol (PER), and melamine (MA). The synergistic effects of LaMnO3 catalyst on the performance of IFR PP composites as well as the corresponding catalytically synergistic FR mechanism were investigated. The experimental results show that the incorporated LaMnO3 catalyst plays an excellently catalytic and synergistic part in improvement of the flame retardancy of FR PP system. Compared with FR system without LaMnO3, the incorporation of only 0.5 wt% LaMnO3 into PP FR system could obviously improve the UL‐94 level from failure to V‐0 rating and decrease the micro‐scale calorimetry parameters peak heat release rate and heat release capacity. The remarkable improvement in flammability can be ascribed to the catalytic carbonization effect of LaMnO3 on the intumescent flame retardant PP system. The incorporation of appropriate amount of LaMnO3, on one hand, could improve the thermal stability of FR PP material, and on the other hand, could also act as nuclei to induce formation of the continuous, compact and smooth condensed phase intumescent charred layer with radialized spherulite‐like structure. As a result, the char yield and also the quality of the formed condensed phase charred layers are correspondingly enhanced remarkably, which is beneficial to improvement of the FR properties. POLYM. COMPOS., 35:2390–2400, 2014. © 2014 Society of Plastics Engineers

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Practicality of physical recycling method for waste polymer composites exampled via high density polyethylene/automobile shredder residue composites

Bai

Song

Hou

et al. 2023

Engineering Reports

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With the booming of automobiles industry, the recycling of automobile shredder residue (ASR) with complicated constitutes gradually become an urgent issues owing to its difficulty for traditional recycling. Herein, solid‐state shear milling (S3M) technology which can control the domain size of the various polymers in blend was applied to overcome the mismatch of viscosity and poor compatibility of ASR and thus modify the processability to match practical manufacturing. Resultantly, the melt processing of ASR was achieved and a high‐density polyethylene (HDPE)/ASR composite was also prepared with more optimal mechanical properties (tensile strength: 53.2 MPa, impact strength: 36.9 kJ/m2), compared with commercially available recycled PE. This work not only provided a feasible application route for the recycling of ASR material, but also demonstrated the optional methodology for recycling polymer waste with complicated component via physical recycling way.

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Yuanzhang Bai

Catalytically synergistic effects of novel LaMnO₃ composite metal oxide in intumescent flame‐retardant polypropylene system

Practicality of physical recycling method for waste polymer composites exampled via high density polyethylene/automobile shredder residue composites

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Yuanzhang Bai

Catalytically synergistic effects of novel LaMnO3 composite metal oxide in intumescent flame‐retardant polypropylene system

Practicality of physical recycling method for waste polymer composites exampled via high density polyethylene/automobile shredder residue composites

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Catalytically synergistic effects of novel LaMnO₃ composite metal oxide in intumescent flame‐retardant polypropylene system