西华大学学报(自然科学版)
西華大學學報(自然科學版)
서화대학학보(자연과학판)
JOURNAL OF XIHUA UNIVERSITY(NATURAL SCIENCE EDITION)
2011年
3期
48-52,72
,共6页
尼龙11%热膨胀石墨%纳米复合物%熔融共混%性能
尼龍11%熱膨脹石墨%納米複閤物%鎔融共混%性能
니룡11%열팽창석묵%납미복합물%용융공혼%성능
nylon 11(PA11)%thermally expanded graphite(TEG)%nanocomposite%melt compounding%property
采用直接熔融共混的方法制备了尼龙11/热膨胀石墨纳米复合材料,用X射线衍射(XRD)、热重分析(TGA)、扫描电子显微镜(SEM)、透射电子显微镜(TEM)、拉伸和电导率测试等手段研究了尼龙11/热膨胀石墨(PA11/TEG)纳米复合材料的微观结构和性能.结果表明,石墨的高温热处理能有效剥离石墨片层,单独的石墨片层厚度达到100 nm左右.在熔融共混中,石墨片层以平均20 nm的厚度均匀分散于PA11基体中.TGA测试表明,TEG的加入改善了PA11的耐热性能.力学性能测试结果表明,当加入2%(重量比)的TEG,尼龙11/热膨胀石墨纳米复合材料的弹性模量和屈服强度与纯PA11相比分别提高了149%和34.5%.电导率测试表明,复合材料的渗逾阀值为1.0%.TEG在PA11基体中的良好分散在改善材料性能中起到重要左右.
採用直接鎔融共混的方法製備瞭尼龍11/熱膨脹石墨納米複閤材料,用X射線衍射(XRD)、熱重分析(TGA)、掃描電子顯微鏡(SEM)、透射電子顯微鏡(TEM)、拉伸和電導率測試等手段研究瞭尼龍11/熱膨脹石墨(PA11/TEG)納米複閤材料的微觀結構和性能.結果錶明,石墨的高溫熱處理能有效剝離石墨片層,單獨的石墨片層厚度達到100 nm左右.在鎔融共混中,石墨片層以平均20 nm的厚度均勻分散于PA11基體中.TGA測試錶明,TEG的加入改善瞭PA11的耐熱性能.力學性能測試結果錶明,噹加入2%(重量比)的TEG,尼龍11/熱膨脹石墨納米複閤材料的彈性模量和屈服彊度與純PA11相比分彆提高瞭149%和34.5%.電導率測試錶明,複閤材料的滲逾閥值為1.0%.TEG在PA11基體中的良好分散在改善材料性能中起到重要左右.
채용직접용융공혼적방법제비료니룡11/열팽창석묵납미복합재료,용X사선연사(XRD)、열중분석(TGA)、소묘전자현미경(SEM)、투사전자현미경(TEM)、랍신화전도솔측시등수단연구료니룡11/열팽창석묵(PA11/TEG)납미복합재료적미관결구화성능.결과표명,석묵적고온열처리능유효박리석묵편층,단독적석묵편층후도체도100 nm좌우.재용융공혼중,석묵편층이평균20 nm적후도균균분산우PA11기체중.TGA측시표명,TEG적가입개선료PA11적내열성능.역학성능측시결과표명,당가입2%(중량비)적TEG,니룡11/열팽창석묵납미복합재료적탄성모량화굴복강도여순PA11상비분별제고료149%화34.5%.전도솔측시표명,복합재료적삼유벌치위1.0%.TEG재PA11기체중적량호분산재개선재료성능중기도중요좌우.
Nanocomposites based on nylon 11(PA11)and thermally expanded graphite(TEG)were prepared by direct melt compounding.Scanning electron microscope(SEM),transmission electron microscope(TEM)and X-ray diffraction(XRD)characterization showed that graphite nanosheets were dispersed in nanoscale in the PA11 matrix,and the resulted PA11/TEG nanocomposites exhibited a completely intercalated nanostructure.Thermogravimetric analysis(TGA)showed that the incorporation of TEG could improve the thermal stability of the nanocomposites.Mechanical testing showed that compared with neat PA11,the elastic modulus and the yield strength of the composite were greatly improved by about 149%and 34.5%respectively,with incorporating only 2% wt.TEG.Electrical conductivity of PA11 was notably enhanced by introduction of TEG.Nanoeomposites with extremely low (1.0 wt.% TEG)percolation threshold were successfully obtained.In general,the degree of dispersion of TEG within polymer matrix played a vital role in property improvement.
