薄荷纤维抗菌针织内衣面料开发及性能研究
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摘要
基于薄荷纤维天然抗菌的性能特点,采用12.0 tex(50S)的莫代尔与薄荷纤维混纺纱(70∶30),在32针/25.4 mm的单面针织大圆机上,开发一款单面纬平针抗菌针织内衣面料。详细介绍面料的编织工艺、染整工艺以及技术要点,并测试面料的基本物理性能及弹性回复性、吸湿速干性、抗菌性、接触瞬间凉感性能。结果表明,开发的薄荷纤维单面纬平针抗菌针织内衣面料具有优良的弹性回复性、吸湿排汗性、抗菌性,而且穿着舒适,可广泛用于贴身内衣、休闲及运动服装面料。
Based on the natural antibacterial property of mint fiber, an antibacterial knitted underwear fabric was developed on 32 G single circular knitting machine by using 12.0 tex(50 S) Modal and mint fiber blended yarn(70 ∶30). The knitting process, dyeing and finishing process and main technical points were introduced. And the basic physical properties, elastic recovery, moisture absorption and sweat-transfer, antibacterial and contact transient cool feeling properties were tested. The results show that antibacterial mint fiber knitted fabric has excellent elastic recovery, moisture absorption, sweat-transfer and antibacterial properties, and is comfortable to wear, which can be widely used in lingerie fabric, leisure and sports apparel fabrics.
Based on the natural antibacterial property of mint fiber, an antibacterial knitted underwear fabric was developed on 32 G single circular knitting machine by using 12.0 tex(50 S) Modal and mint fiber blended yarn(70 ∶30). The knitting process, dyeing and finishing process and main technical points were introduced. And the basic physical properties, elastic recovery, moisture absorption and sweat-transfer, antibacterial and contact transient cool feeling properties were tested. The results show that antibacterial mint fiber knitted fabric has excellent elastic recovery, moisture absorption, sweat-transfer and antibacterial properties, and is comfortable to wear, which can be widely used in lingerie fabric, leisure and sports apparel fabrics.
引文
[1]张洪波.功能性针织内衣面料生产实践[J].针织工业,2017(1):1-3.
[2]杜梅,赵磊,王前文,等.薄荷粘胶纤维混纺纱的抗菌性能研究[J].上海纺织科技,2015(5):26-28.
[3]王永敏,邱纯利,刘诚.薄荷抗菌粘胶短纤维的开发[J].人造纤维,2013(1):2-5.
[4]杜梅,赵磊,王前文,等.薄荷粘胶纤维混纺纱的抗菌性能测试与研究[J].轻纺工业与技术,2015(2):9-11.
[5]王培红,张英梅,侯艳玲,等.薄荷纤维中空涤纶绢丝棉混纺织物的开发[J].棉纺织技术,2014(7):71-74.
[6]陈翠翠,李德朴,于湖生.薄荷粘胶纤维基本性能的研究[J].山东纺织科技,2010(5):54-56.
[7]马君志,李昌垒.中药保健再生纤维素纤维的开发及应用[J].针织工业,2016(8):4-6.
[8]于彩虹.羊毛-薄荷纤维机织物的开发及性能研究[D].青岛:青岛大学,2016.
[9]孙海燕,刘逸新,于湖生.薄荷粘胶纤维与普通粘胶纤维针织物性能的对比研究[J].山东纺织科技,2014(6):55-56.
[10]李斌.莫代尔纤维的优异性能[J].人造纤维,2017(2):32-33,27.
[11]杜西超.莫代尔纤维的性能与应用研究[J].成都纺织高等专科学校学报,2016(1):150-153.
[12]许瑞超,陈莉娜.麻赛尔与莫代尔纤维交织针织面料的开发[J].针织工业,2014(4):11-13.
[13]FZ/T 73023—2006抗菌针织品[S].
[2]杜梅,赵磊,王前文,等.薄荷粘胶纤维混纺纱的抗菌性能研究[J].上海纺织科技,2015(5):26-28.
[3]王永敏,邱纯利,刘诚.薄荷抗菌粘胶短纤维的开发[J].人造纤维,2013(1):2-5.
[4]杜梅,赵磊,王前文,等.薄荷粘胶纤维混纺纱的抗菌性能测试与研究[J].轻纺工业与技术,2015(2):9-11.
[5]王培红,张英梅,侯艳玲,等.薄荷纤维中空涤纶绢丝棉混纺织物的开发[J].棉纺织技术,2014(7):71-74.
[6]陈翠翠,李德朴,于湖生.薄荷粘胶纤维基本性能的研究[J].山东纺织科技,2010(5):54-56.
[7]马君志,李昌垒.中药保健再生纤维素纤维的开发及应用[J].针织工业,2016(8):4-6.
[8]于彩虹.羊毛-薄荷纤维机织物的开发及性能研究[D].青岛:青岛大学,2016.
[9]孙海燕,刘逸新,于湖生.薄荷粘胶纤维与普通粘胶纤维针织物性能的对比研究[J].山东纺织科技,2014(6):55-56.
[10]李斌.莫代尔纤维的优异性能[J].人造纤维,2017(2):32-33,27.
[11]杜西超.莫代尔纤维的性能与应用研究[J].成都纺织高等专科学校学报,2016(1):150-153.
[12]许瑞超,陈莉娜.麻赛尔与莫代尔纤维交织针织面料的开发[J].针织工业,2014(4):11-13.
[13]FZ/T 73023—2006抗菌针织品[S].
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