超临界CO_2预处理对UHMWPE纤维电子束辐照效果的影响Influence of Supercritical CO_2 Pretreatment on the Effects of UHMWPE Fibers Irradiated by Electron Beam
代栋梁,施楣梧
DAI Dong-liang,SHI Mei-wu
摘要(Abstract):
采用正交试验,研究了超临界CO_2预处理工艺(压力、温度、时间)对辐敏剂三羟甲基丙烷三甲基丙烯酸酯(TMPTMA)渗入率及超高相对分子质量聚乙烯(UHMWPE)纤维凝胶含量和蠕变率的影响,并利用Minitab软件分析UHMWPE纤维凝胶含量和蠕变率与TMPTMA渗入率之间的关系,最后通过对UHMWPE纤维各项性能的测定,进一步优化超临界CO_2预处理工艺。研究结果表明:处理温度对TMPTMA的渗入率及UHMWPE纤维凝胶含量和蠕变率影响最大,其次为压力,时间的影响最小;确定了最佳工艺为处理压力30 MPa、温度80℃、时间50 min;TMPTMA渗入率是引起各个影响因素不同水平之间凝胶含量和蠕变率出现差别的重要因素;超临界CO_2预处理对UHMWPE纤维的辐照交联起到了重要的促进作用,使其抗蠕变性能得到很大程度的改善。
The influence of supercritical carbon dioxide pretreatment process(pressure,temperature,time)on the infiltration rate of trimethylolpropane trimethacrylate(TMPTMA),the gel content and creep rate of ultra-high molecular weight polyethylene(UHMWPE) fibers were studied with orthogonal experiment.The relationships between gel content and infiltration rate,creep rate and infiltration rate were analysed by using Minitab software,then the properties of UHMWPE fibers were tested to optimize supercritical CO_2 pretreatment process further.The results indicated that the processing temperature had the most significant effect on the infiltration rate of TMPTMA,the gel content and creep rate of UHMWPE fibers,followed by pressure,time had the minimal effect.The optimum process was processing pressure 30 MPa,80℃ and 50 min.The infiltration rate of TMPTMA was an important factor to cause the differences of gel content and creep rate between different levels of various factors.Supercritical CO_2 pretreatment played an important role in promoting irradiation cross-linking of UHMWPE fibers,and the anti-creep properly was greatly improved.
关键词(KeyWords):
超高相对分子质量聚乙烯纤维;超临界二氧化碳;电子束辐照;正交试验
ultra-high molecular weight polyethylene fiber;supercritical carbon dioxide;electron beam irradiation;orthogonal experiment
基金项目(Foundation):
作者(Author):
代栋梁,施楣梧
DAI Dong-liang,SHI Mei-wu
DOI: 10.16090/j.cnki.hcxw.2016.06.007
参考文献(References):
- [1]赵刚,赵莉,谢雄军,等.超高分子量聚乙烯纤维的技术与市场发展[J].纤维复合材料,2011(1):50-56.
- [2]顾超英.国内外超高分子量聚乙烯纤维的生产与应用[J].纺织导报,2010(4):52-55.
- [3]尹文梅,黄安平,贾军纪,等.超高相对分子质量聚乙烯纤维的生产应用现状[J].合成纤维,2013,42(4):7-10.
- [4]黄鑫.超高分子量聚乙烯纤维原料比较及抗蠕变性能研究[D].北京:北京服装学院学院,2010:29-31.
- [5]张秀雨,于俊荣,彭宏,等.硅烷交联改性对UHMWPE纤维蠕变性能的影响[J].东华大学学报:自然科学版,2015,41(1):1-5.
- [6]徐明忠,赵国樑.超高分子量聚乙烯纤维蠕变性能研究进展[J].合成纤维工业,2012,35(2):44-47.
- [7]钱泽坤,杨文芳,朱珍付,等.超临界CO2无水染整技术用于涤纶的疏水改性[J].合成纤维,2015,44(9):10-12.
- [8]刘魁.超临界二氧化碳改性碳纤维表面的研究[D].哈尔滨:哈尔滨工业大学,2007:8-13.
- [9]刘爱学,孟令辉,黄玉东.超临界流体技术在纤维领域的应用[J].合成纤维工业,2004,27(3):43-46.
- [10]SAUNDERS C,LOPATA V,BARNARD J,et al,Electron beam curing——taking good ideas to the manufacturing floor[J].Radiation Physics and Chemistry,2000,57:441-445.
- [11]CLELLAND M R,PARKS L A,CHENG S.Application for radiation processing of materials[J].Nuclear Instruments and Methods in Physics Research B,2003,208:66-73.
- [12]唐蓉.再生聚乙烯的辐射交联改性研究[D].云南:昆明理工大学,2008:48-51.
- [13]孟伟涛.高密度聚乙烯电子束敏化辐射交联的研究[D].北京:北京化工大学,2011:19-20.
- [14]ASTM Committee on Standards.ASTM D2765(01)2006 Standard test methods for determination of gel content and swell ratio of crosslinked ethylene Plastics[S].United States:ASTM International,2006.