功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
21期
2906-2911
,共6页
覃岽益%于金超%彭志勤%胡智文
覃崠益%于金超%彭誌勤%鬍智文
담동익%우금초%팽지근%호지문
葡甘聚糖%凹凸棒土%纳米复合材料%物理共混
葡甘聚糖%凹凸棒土%納米複閤材料%物理共混
포감취당%요철봉토%납미복합재료%물리공혼
konjac glucomannan%attapulgite%nano-composite%physical blend
采用天然纳米粘土——凹凸棒土(AT)对魔芋葡甘聚糖(KGM)进行共混改性,并通过流延成膜的方法制备了KGM/AT纳米复合材料,采用X射线衍射(XRD)、傅里叶红外光谱(FT—IR)、扫描电镜(SEM)对复合材料的结构和形貌进行表征;利用热重分析(TG)、力学性能测试、溶胀性测试分别研究了复合材料的热稳定性、机械性能以及耐水性能。结果表明,AT与KGM之间可以通过氢键产生较强的相互作用,AT在一定程度上可以促进KGM结晶,适量的AT在KGM基体中可以均匀分散,而过量的AT则易发生团聚,在基体中无规分布。复合材料的起始分解温度和最快分解温度明显提高,材料的热稳定性增强。此外,随着AT的加入,复合材料的力学性能和耐水性能也得到了一定程度的改善。
採用天然納米粘土——凹凸棒土(AT)對魔芋葡甘聚糖(KGM)進行共混改性,併通過流延成膜的方法製備瞭KGM/AT納米複閤材料,採用X射線衍射(XRD)、傅裏葉紅外光譜(FT—IR)、掃描電鏡(SEM)對複閤材料的結構和形貌進行錶徵;利用熱重分析(TG)、力學性能測試、溶脹性測試分彆研究瞭複閤材料的熱穩定性、機械性能以及耐水性能。結果錶明,AT與KGM之間可以通過氫鍵產生較彊的相互作用,AT在一定程度上可以促進KGM結晶,適量的AT在KGM基體中可以均勻分散,而過量的AT則易髮生糰聚,在基體中無規分佈。複閤材料的起始分解溫度和最快分解溫度明顯提高,材料的熱穩定性增彊。此外,隨著AT的加入,複閤材料的力學性能和耐水性能也得到瞭一定程度的改善。
채용천연납미점토——요철봉토(AT)대마우포감취당(KGM)진행공혼개성,병통과류연성막적방법제비료KGM/AT납미복합재료,채용X사선연사(XRD)、부리협홍외광보(FT—IR)、소묘전경(SEM)대복합재료적결구화형모진행표정;이용열중분석(TG)、역학성능측시、용창성측시분별연구료복합재료적열은정성、궤계성능이급내수성능。결과표명,AT여KGM지간가이통과경건산생교강적상호작용,AT재일정정도상가이촉진KGM결정,괄량적AT재KGM기체중가이균균분산,이과량적AT칙역발생단취,재기체중무규분포。복합재료적기시분해온도화최쾌분해온도명현제고,재료적열은정성증강。차외,수착AT적가입,복합재료적역학성능화내수성능야득도료일정정도적개선。
A natural nano-clay, attapulgite (AT), was introduced for the modification of konjac glucomannan (KGM) by solution blending, and KGM/AT nanocomposites were prepared by casting the blend aqueous solutions. The structure and morphology of KGM/AT blend films were characterized by using X-ray diffraction (XRD), FT-infrared(FT-IR), scanning electron microseopy(SEM). Besides, the thermal stability, mechanical properties as well as water resistance of the composites were investigated by thermogravimetric analysis(TG), measurements of mechanical properties, and swelling test, respectively. The results show that strong interactions between KGM and AT can be generated through hydrogen bond formation. Besides, the crystallinity of KGM was slightly increased with the addition of AT to a certain degree. It was also found that the appropriate amount of AT nano-rods could be dispersed uniformly with single crystal state in the matrix of KGM while excessive AT nano-rods were easily to aggregate, inducing an irregular distribution in the matrix. In addition, the thermal stability of KGM/AT composites was improved based on the increase of initial temperature of thermal decomposition and the temperature of maximum thermo-gracimetric rate. Meanwhile, a certain improvement of the mechanical properties and water resistance of the KGM films were also observed by addition of AT nanoclay.