粘土负载苯甲酸钠的制备及其对长链支化聚丙烯流变、结晶和发泡的影响

IF 3.2 4区工程技术 Q2 CHEMISTRY, APPLIED

Journal of Cellular Plastics Pub Date : 2023-06-08 DOI:10.1177/0021955x231162187

Jing Cao, Jingwen Zou, Siying Zheng, Na Wen, Weijie Xu, Yuying Zheng

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引用次数: 0

摘要

PP的熔融强度低、半结晶性等特点给其发泡工艺带来了挑战。在PP主链上引入长链分支和添加颗粒作为细胞成核剂是改善PP泡沫细胞结构的常用方法。以na -蒙脱土(Na-MMT)为原料，先与表面活性剂发生部分离子交换反应，再与苯甲酸反应，制备了黏土负载型苯甲酸钠(NaB-OMMT)。将所制备的NaB-OMMT应用于LCBPP/NaB-OMMT纳米复合材料及其泡沫的制备。研究了粘土的分散状态、纳米复合材料的结晶行为和流变性能，以及泡沫的胞体结构和压缩性能。结果表明:低NaB-OMMT含量的纳米复合材料中，粘土层以剥落为主，夹层层居多，NaB-OMMT含量达到2%以上;与LCBPP相比，纳米复合材料的熔融温度降低，结晶度增加，球晶尺寸减小。当NaB-OMMT含量达到2%或更高时，纳米复合材料的熔体粘度和弹性显著增加。LCBPP/NaB-OMMT纳米复合泡沫具有更高的孔密度、更小的孔尺寸和更小的标准偏差。其中，添加1% NaB-OMMT的泡沫细胞密度最大，细胞尺寸最小。结果表明，泡沫的细胞结构与成核剂的含量、分散状态和结构密切相关。当NaB被支撑在分散良好且脱落的粘土层上时，细胞成核效率显著提高。随着NaB-OMMT含量的增加，泡沫的压缩性能与泡沫的胞体结构有关，并表现出与胞体结构相似的变化趋势。

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Preparation of clay-supported sodium benzoate and its effect on the rheology, crystallization and foaming of long chain branched polypropylene

The foaming of PP has encountered challenges because of its low melt strength and semi-crystalline characteristics. Introducing long chain branching (LCB) onto the PP backbone and the addition of particles as cell nucleating agent are the commonly used methods to improve the cell structure of PP foams. In this paper, clay-supported sodium benzoate (NaB-OMMT) was prepared from Na-montmorillonite (Na-MMT) via the partial ion exchange reaction with surfactant and subsequent reaction with benzoic acid. The as prepared NaB-OMMTs were then applied to prepare LCBPP/NaB-OMMT nanocomposites and their foams. The dispersion state of clay, crystallization behaviors and rheological properties of the nanocomposites, as well as the cell structure and compression properties of the foams were investigated. The results show that clay layers are mostly exfoliated in the nanocomposites with low NaB-OMMT content, while intercalated layers dominant with the content reaches 2% or higher. The melting temperature of the nanocomposites decreases and the crystallinity increases, while the spherulite size decreases compared to LCBPP. The melt viscosity and elasticity of nanocomposites increase significantly when the content of NaB-OMMT reaches 2% or higher. LCBPP/NaB-OMMT nanocomposites foams exhibit higher cell density, smaller cell size and its standard deviation. Therein, the foam with 1% of NaB-OMMT shows the maximum cell density and the minimum cell size. It is concluded that the cell structure of the foam is highly dependent on the content, dispersion state and structure of the cell nucleating agent. When NaB is supported on well dispersed and exfoliated clay layers, the cell nucleation efficiency is significantly enhanced. The compression properties of the foams depend on their cell structures and exhibit the similar variation trend with the latter with the content of NaB-OMMT increasing.

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来源期刊

Journal of Cellular Plastics 工程技术-高分子科学

CiteScore

5.00

自引率

16.00%

发文量

审稿时长

3 months

期刊介绍： The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.