The effects of six nucleating agents (NAs), i.e., orotic acid (OA), potassium salt of 3,5-bis(methoxycarbonyl)benzenesulfonate (LAK-301), substituted-aryl phosphate salts (TMP-5), talc (TALC), N'1,N'6-dibenzoyladipohydrazide (TMC-306) and N1,N1'-(ethane-1,2-diyl)bis(N2-phenyloxalamide) (OXA), on the crystallization behavior of poly(lactic acid) (PLA) were compared by DSC. Under the same dosing of 0.5wt%, the nucleation effect of the NAs for PLA declines in the order of TMC-306≈OXA>TALC≫TMP-5≈LAK-301≈OA. The nucleation efficiency (NE) of TMC-306 and OXA is around 50%, which is almost 2 times of the NE of TALC. In the best case of the PLA/TMC-0.5% sample, the half-time of crystallization decreases from 30s to 9s with decreasing the crystallization temperature from 120°C to 100°C, which is of great significance to the fast production of highly crystallized PLA materials. As high-efficient NAs, TMC-306 and OXA are able to accelerate the crystallization rate of PLA even upon fast cooling at 50°C/min, while make no difference on PLA crystal form, as identified by WAXD. DMA analysis shows that the storage modulus of PLA is significantly improved by TMC-306 and OXA.
Keywords: Fast cooling; Nucleating agent; Poly(lactic acid).
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