Abstract
In this study, a new organic nucleating agent N, N -bis(stearic acid)-1,4-dicarboxybenzene dihydrazide (PASH) to improve crystallization behavior of poly(L-lactic acid) (PLLA) along with the effect of PASH on melting behavior, thermal stability of PASH-nucleated PLLA was holistically reported. The melt-crystallization process illustrated that PASH as an effective heterogeneous nucleating agent could boost PLLA�s crystallization rate, but increasing PASH concentration and cooling rate conversely inhibited melt-crystallization process of PLLA in this study. With respect to melt-crystallization process, a larger amount of PASH leaded to a shift of cold-crystallization peak to lower temperature level. Isothermal crystallization revealed, in comparison to pure PLLA, that the half time of overall crystallization of PLLA/PASH was significantly decreased with PLLA containing 3 wt% PASH having the minimum t1/2= 67.3 s at 105şC. The different melting behaviors of PLLA/PASH under different conditions were attributed to the nucleating effect of PASH within PLLA. In particular, the melting behavior at a heating rate of 10�C/min after isothermal crystallization depended primarily on the crystallization temperature. Whereas, the impact of crystallization time on melting behavior was negligible. Nonetheless, the melting behavior was influenced by the heating rate after non-isothermal crystallization. The thermal stability of PLLA was detrimental with the addition of PASH owing to a typical drop in onset thermal decomposition temperature.
Highlights
A large-scale usage of petroleum-based plastics has led to critical environmental pollution, which gradually hinder the development of economy and society to a great extent
In this case the impact of PASH concentration can be highly detrimental to Poly(L-lactic acid) (PLLA) crystallization behavior, as earlier mentioned in our differential scanning calorimetry (DSC) results
The thermal properties including melt-crystallization, cold-crystallization, isothermal crystallization, melting behavior and thermal stability of PLLA/PASH were studied in comparison with those of PLLA alone
Summary
A large-scale usage of petroleum-based plastics has led to critical environmental pollution, which gradually hinder the development of economy and society to a great extent. The utilization of environmentally-friendly plastics as an alternative to petroleum-based counterparts is very important to maintain the sustainable ecological development. Poly(L-lactic acid) (PLLA), derived from renewable resources such as sugarcanes, corn and potatoes [1], is one of the most popular alternative to white pollutable plastic because of its excellent biodegradability, biocompatibility, non-toxicity, compostability and easy processability [2, 3]. Associated CT images revealed that bony defects grafted with PLLA/Fe3O4 nanofibers demonstrated an increases in bone volume with increasing Fe3O4 content, suggesting that PLLA/Fe3O4 nanofibers could be utilized to be a useful biomaterial for bone tissue engineering applications
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