Abstract
AbstractNontoxic and efficient coal gangue thermal stabilizer (Y‐CG) was prepared by cheap and readily available calcium oxide, coal gangue (CG) and stearic acid(SA). The proposed mechanism of Y‐CG thermal stability was studied by XRD, FT‐IR, BET and thermal stability test. The results show that when the mass ratio of CG to water was 1:7, the loading of Ca(OH)2 between CG sheets reached the maximum value of 3.01 mmol/g. The hydrophobic property of the Y‐CG surface was better when modified at 75°C for 2 h with 5% SA. With 10% Y‐CG, the Congo red test showed thermal stabilization time of PVC improved up to 55.9 min and the torque rheological test showed dynamic thermal stabilization time of PVC improved up to 62.10 min. The TG curves show that Y‐CG had little effect on the onset degradation temperature of PVC. Still, Y‐CG can absorb HCl and initiate the carbonization of PVC to inhibit degradation. Compared with the commonly used thermal stabilizers, the thermal stability of Y‐CG was only slightly worse than that of hydrotalcite thermal stabilizers. The early reaction was that the strong base Ca(OH)2 in Y‐CG adsorbs HCl, and the CaCl2 was stably loaded in the CG layered structure, which avoided the adverse effects caused by strongly alkaline. The late reaction was that SA and Ca(OH)2 form weakly alkaline calcium stearate to absorb HCl. At the same time, calcium stearate can also be used as a compatibilizer to improve the compatibility between Y‐CG and PVC.
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