CN111364118A - 复合纤维与织物 - Google Patents
复合纤维与织物 Download PDFInfo
- Publication number
- CN111364118A CN111364118A CN201910624419.7A CN201910624419A CN111364118A CN 111364118 A CN111364118 A CN 111364118A CN 201910624419 A CN201910624419 A CN 201910624419A CN 111364118 A CN111364118 A CN 111364118A
- Authority
- CN
- China
- Prior art keywords
- fabric
- weight
- fiber
- zinc oxide
- oxide particles
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
本发明提供一复合纤维,包括:聚合物纤维;掺杂氧化锌粒子,分散于聚合物纤维中或者结合至聚合物纤维;以及荧光染料,结合至聚合物纤维,其中掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。本发明还提供上述复合纤维制成的纱线以及织成的织物。本发明的复合纤维及织物可阻挡对人体有害的波长范围的光线,并增强对人体有益的波长范围的光线,有利于穿着由其制得的衣物的人体健康。
Description
技术领域
本发明关于织物,更特别关于其纤维组成。
背景技术
目前已知阳光中可见光波长的范围(400nm至780nm)中特定的波长对人体皮肤具有抗老化、美白、纹路改善与胶原蛋白的增生等有益效果,例如480nm至530nm可加快血液循环、活化细胞,600nm至750nm可刺激纤维母细胞的细胞色素活化、以利制造胶原蛋白。然而阳光中其他波长范围如180nm至400nm为紫外光,可分为UV-A(光波波长在320~400nm),可穿透至皮肤真皮层,使其老化松弛、出现皱纹,UV-B(光波波长在260~320nm),使皮肤出现红斑,严重的还可能伴有水肿、水疱、脱皮,以及UV-C(光波波长在180~290nm),波长更短,有致癌的可能。
开发能同时隔离紫外光、遮蔽近红外线、及增进前述特定波长的可见光穿透的复合纤维,是纺织产业技术未来的发展方向。
发明内容
本发明的目的在于提供可提高穿透织物的特定波长范围的可见光比例的复合纤维。
本发明的另一目的在于提供可提高穿透织物的特定波长范围的可见光比例的织物。
本发明一实施例提供的复合纤维,包括:聚合物纤维;掺杂氧化锌粒子,分散于聚合物纤维中或者结合至聚合物纤维;以及荧光染料,结合至聚合物纤维,其中掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。
本发明一实施例提供的织物包括:复合纤维,包括:第一聚合物纤维;掺杂氧化锌粒子,分散于第一聚合物纤维中或者结合至第一聚合物纤维;以及荧光染料,结合至第一聚合物纤维,其中掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。
本发明一实施例提供的织物包括:第一聚合物纤维与第二聚合物纤维;掺杂氧化锌粒子,分散于第一聚合物纤维中或者结合至第一聚合物纤维;以及荧光染料,结合至第二聚合物纤维,其中掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。
与现有技术相比,本发明的优点在于:本发明的复合纤维及织物可阻挡对人体有害的波长范围的光线,并增强对人体有益的波长范围的光线,有利于穿着由其制得的衣物的人体健康。
附图说明
图1是本发明实施例1和比较例1的织物的荧光分光光谱;
图2是本发明实施例1和比较例1的织物的可见光穿透光谱;
图3是本发明实施例2和比较例2的织物的可见光穿透光谱;
图4是本发明实施例2和比较例3的织物的荧光分光光谱;
图5是本发明实施例3-8的织物的可见光穿透光谱;
图6是本发明实施例9-14的织物的可见光穿透光谱;
图7是本发明实施例15-20的织物的可见光穿透光谱;
图8是本发明实施例21的织物的荧光分光光谱;
图9是本发明实施例22的织物的荧光分光光谱。
具体实施方式
由于人体大部份的时间穿着衣物,若衣物可阻挡对人体有害的波长范围的光线,并增强对人体有益的波长范围的光线,有利于穿着衣物的人体健康。为达上述目标,本发明实施例提供的织物可提高穿透织物的特定波长范围的可见光比例。
举例来说,本发明一实施例提供的复合纤维包括聚合物纤维、掺杂氧化锌粒子、与荧光染料。上述掺杂氧化锌粒子分散于聚合物纤维中或者结合至聚合物纤维。举例来说,可将掺杂氧化锌粒子分散于聚合物之后,再熔融纺丝及假捻加工成纱线并织造成布。如此一来,掺杂氧化锌粒子即分散于聚合物纤维中。之后可将上述具有掺杂氧化锌粒子分散于其中的聚合物纤维纺制成的纱线或织物浸入荧光染料的水溶液中,使荧光染料结合至聚合物纤维。另一方面,可将荧光染料与掺杂氧化锌粒子一起分散于溶液中,再将纤维纺制成的纱线或织物浸入分散液中,使掺杂氧化锌粒子与荧光染料结合至纱线或织物的聚合物纤维。不论采用何种方式,掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。例如,掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长部分重叠。举例来说,掺杂氧化锌粒子的光线放射波长介于400nm至780nm,而荧光染料的光线吸收波长介于180nm至600nm之间。若掺杂氧化锌粒子的光线放射波长与荧光染料光线吸收波长不重叠,则搭配掺杂氧化锌粒子的荧光染料其放射强度,将与单独采用荧光染料的放射强度类似。掺杂氧化锌粒子可阻挡大部份的紫外线与红外线,并放射特定波长的光线。荧光染料在吸收掺杂氧化锌粒子放射的光线之后,将加强放射特定波长的可见光。
在一实施例中,聚合物纤维包括聚酯纤维、聚丙烯腈纤维、聚丙烯酸酯纤维、纤维素纤维、聚乙烯纤维、聚丙烯纤维、聚酰胺纤维、聚氨基甲酸酯纤维、纤维素醋酸酯纤维、动物纤维、或上述的组合。上述聚合物纤维形成的复合纤维可与其他不含掺杂氧化锌粒子或荧光染料的聚合物纤维纺制成纱线,再将纱线织成织物如布料。
在一实施例中,掺杂氧化锌粒子可掺杂铝、镓、锡、或上述的组合,且(a)铝、镓、锡、或上述的组合的重量与(b)锌及铝、镓、锡、或上述的组合的总重之间的比例介于0.1:100至20:100之间。若(a)铝、镓、锡、或上述的组合的比例过低或过高,则复合纤维、含复合纤维的纱线、与含复合纤维的织物的透光度过低,使外观的雾度过高。上述掺杂氧化锌粒子的形成方法可为:将锌的硝酸盐或者硫酸盐与掺杂元素(包括镓、铝、锡)的氯化物或硫酸盐配制成混合溶液(浓度为0.5ml/L~5.0ml/L),掺杂元素的添加量可为锌和掺杂元素总重量的0.1%~20%,例如0.1%~10%。将上述混合溶液和碳酸氢铵溶液一起滴加到水中,过程中保持在约40℃、pH值控制在7.0-7.5,同时强烈搅拌,以得均匀掺杂的白色碱式碳酸锌沉淀物。将上述沉淀物洗涤分离后烘干,所得的粉末在氢气和氩气的混合下烧结,烧结温度400℃至700℃,时间30分钟至60分钟。烧结后即得到掺杂铝、镓、锡、或上述的组合的氧化锌粒子。掺杂氧化锌粒子的粒径可由烧结温度与烧结时间调整,以形成粒径介于50nm至1000nm之间的粒子。若掺杂氧化锌的粒子过大,可能会难以纺丝形成具有掺杂氧化锌的粒子分散于其中的聚合物纤维。另一方面,掺杂氧化锌的粒子过大可能会影响复合纤维的透光度,甚至降低织物的透气性。若掺杂氧化锌的粒子过小,则易出现团聚问题,反而难以均匀地分散于聚合物纤维中或均匀地结合至聚合物纤维。
在一实施例中,掺杂氧化锌粒子与复合纤维的重量比介于0.1:99.9至20:80之间。在另一实施例中,复合纤维更包括多个二氧化钛粒子分散于聚合物纤维中或者结合至聚合物纤维,且二氧化钛粒子与掺杂氧化锌粒子的总重,与复合纤维的重量之间的比例介于0.1:99.9至20:80之间。若掺杂氧化锌粒子(或掺杂氧化锌粒子与二氧化钛粒子)的比例过低,将无法有效阻挡紫外线及红外线穿透织物。若掺杂氧化锌粒子(或掺杂氧化锌粒子与二氧化钛粒子)的比例过高,则可能会增加织物重量并降低织物的透气性。
一般而言,荧光染料的光线吸收波长可介于180nm至600nm之间,且光线放射波长可介于400nm至780nm之间。举例来说,荧光染料可为1,8-萘酰亚胺类(适用于棉纤维、纤维素纤维、或羊毛纤维)、香豆素类(适用于聚酯纤维)、或半花菁类(适用于聚丙烯腈纤维、蚕丝、毛、或尼龙纤维)。如前所述,透过荧光染料控制放射光线的波长范围,使其对人体皮肤具有抗老化、美白、纹路改善与提升胶原蛋白等效果。在一实施例中,荧光染料与复合纤维的重量比例介于0.01:100至20:100之间。若荧光染料的比例过低,则无法有效提高特定可见光的放射强度。若荧光染料的比例过高,则无法进一步增加特定可见光的放射强度且会增加成本。
上述复合纤维可用于形成织物。举例来说,上述复合纤维可制成纱线,再将纱线织成织物如布料。在一实施例中,复合纤维可与其他聚合物纤维(不具有掺杂氧化锌粒子及/或荧光染料)制成纱线,再将纱线织成织物如布料。另一方面,可取其他聚合物纤维直接制成其他纱线后,再与含复合纤维的纱线织成织物如布料。其他聚合物纤维的组成,可与复合纤维中的聚合物纤维的组成相同或不同。举例来说,可将聚酯与掺杂氧化锌粒子的熔融液挤出纺嘴纺制成丝,之后延伸并冷却,再卷取丝饼制作合成纤维。亦可利用各种加工设备或喷嘴装置,开发出各种仿毛、仿蚕丝、仿棉、仿麻、仿竹节、仿毛杂色、仿云彩纱、或仿胖瘦纱等加工丝。
在一实施例中,可将具有掺杂氧化锌粒子分散其中的聚合物纤维染色形成复合纤维后制成纱线,再织成织物如布料。在另一实施例中,可将具有掺杂氧化锌粒子分散其中的聚合物纤维制成纱线后染色,再织成织物如布料。在其他实施例中,可将具有掺杂氧化锌粒子分散其中的聚合物纤维制成纱线,再织成织物如布料后染色。上述纤维、纱线、或织物的染色方法可为升华法、水浴法、或涂布法。举例来说,升华法可将荧光染料置于坩锅中并将纤维、纱线、或织物置于坩锅上;接着加热坩锅以升华荧光染料,使荧光染料的蒸气结合至聚合物纤维以形成复合纤维。举例来说,水浴法可将荧光染料溶于水中,并将纤维、纱线、或织物浸入水溶液中,使荧光染料结合至聚合物纤维以形成复合纤维。另一方面,可将荧光染料溶于溶液中,并将溶液涂布至纤维、纱线、或织物,使荧光染料结合至聚合物纤维以形成复合纤维。在一实施例中,亦可直接将掺杂氧化锌粒子与荧光染料分散于溶液中,并将分散液涂布至聚合物纤维(不含掺杂氧化锌粒子与荧光染料)、含有上述聚合物纤维的纱线、或含有上述聚合物纤维的织物,使掺杂氧化锌粒子与荧光染料结合至聚合物纤维。不论采用何种方法染色,荧光染料均可结合至聚合物纤维,且掺杂氧化锌粒子均可分散于聚合物纤维中或结合至聚合物纤维。上述复合纤维、纱线、与织物中的掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠,以进一步提高特定可见光波长的放射强度。
在一实施例中,可将掺杂氧化锌粒子分散于第一聚合物纤维中或者结合至第一聚合物纤维。另一方面,可将荧光染料结合至第二聚合物纤维。第一聚合物纤维(含掺杂氧化锌粒子)可与第二聚合物纤维(含荧光染料)一起纺纱成同一纱线,或各自纺纱成不同丝线,再将纱线织成织物如布料。在一实施例中,上述第一聚合物纤维与第二聚合物纤维各自为聚酯纤维、聚丙烯腈纤维、聚丙烯酸酯纤维、纤维素纤维、聚乙烯纤维、聚丙烯纤维、聚酰胺纤维、聚氨基甲酸酯纤维、纤维素醋酸酯纤维、动物纤维、或上述的组合。第一聚合物纤维与该第二聚合物纤维可相同或不同。无论如何,织物中的掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠,以进一步提高特定可见光波长的放射强度。
为让本发明的上述内容和其他目的、特征、和优点能更明显易懂,下文特举出实施例,并配合所附附图,作详细说明如下:
实施例
制备例1(制备掺杂铝的氧化锌粒子)
将硝酸锌与氯化铝配制成浓度为1ml/L的混合溶液,铝的添加量与锌和铝总重的比例为1:100。将上述混合溶液与碳酸氢铵溶液一起滴加到水中,过程中保持在40℃、pH值控制在7.0-7.5,同时强烈搅拌,即得均匀掺杂的白色碱式碳酸锌沉淀物。将上述沉淀物洗涤分离后烘干,所得的粉末在氢气和氩气的混合下烧结,烧结温度400℃至700℃,烧结时间为30分钟至60分钟。烧结后即得到掺杂铝的氧化锌粒子。掺杂铝的氧化锌粒子粒径可藉由调整烧结温度与烧结时间调整,以形成粒径介于50nm至1000nm之间的粒子。举例来说,烧结温度为400℃且烧结时间为60分钟时,可得粒径介于50nm至150nm之间的粒子。烧结温度为700℃且烧结时间为30分钟时,可得粒径大于500nm的粒子。
制备例2(制备掺杂镓的氧化锌粒子)
以制备例1的方式合成掺杂镓的氧化锌粒子,差别仅在于将氯化铝置换成氯化镓。
实施例1
将1重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)分散于99重量份的聚对苯二甲酸乙二酯(PET)。将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.7重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以标准FTTS-FA-008量测黄色织布,其抗UV特性(UPF)为50+。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图1所示。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图2所示。
比较例1
将2.4重量份的二氧化钛粒子(粒径介于50nm至150nm之间)分散于97.6重量份的聚对苯二甲酸乙二酯(PET)。将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.7重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以标准FTTS-FA-008量测黄色织布,其抗UV特性(UPF)为50+。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图1所示。由图1可知,实施例1的黄色织布的放光强度较高,且放射波长红移。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图2所示。由图2可知,实施例1的黄色织布对特定波长的可见光穿透度较高,且穿透的可见光波长红移。
实施例2
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET)。将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.7重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以标准FTTS-FA-008量测黄色织布,其抗UV特性(UPF)为50+。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图3所示。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图4所示。
比较例2
将0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于99.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.7重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以标准FTTS-FA-008量测黄色织布,其抗UV特性(UPF)为10至20。与实施例2相较,比较例2的黄色织物的抗UV特性明显较低。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图3所示。由图3可知,实施例2与比较例2的黄色织布对特定波长的可见光穿透度类似,且实施例2的黄色织布所穿透的可见光波长红移。
比较例3
将0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于99.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.7重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图4所示。由图4可知,实施例2的黄色织布的放光强度较高,且放射波长红移。
实施例3
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.05重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。
实施例4
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.1重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。
实施例5
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.2重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。
实施例6
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.3重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。
实施例7
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.5重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。
实施例8
将0.7重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的掺杂镓的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取1重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以紫外光-可见光(380nm-780nm)照射黄色织物后,量测黄色织物的穿透光谱,如图5所示。由图5可知,当染料用量达0.5重量份时,黄色织布对特定波长的可见光穿透度最大,即放射的荧光最强。当染料用量达1重量份时,则因染料聚集而造成荧光淬灭。
实施例9
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.05重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。
实施例10
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.1重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。
实施例11
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.2重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。
实施例12
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.3重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。
实施例13
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.5重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。
实施例14
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取1重量份的香豆素类的荧光粉红染料(购自吉美染化有限公司的5B)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得粉红色织物。以紫外光-可见光(380nm-780nm)照射粉红色织物后,量测粉红色织物的穿透光谱,如图6所示。由图6可知,当染料用料达0.3重量份时,可达最高可见光穿透率,即粉红色织布的荧光强度最强。
实施例15
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.05重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。
实施例16
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.1重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。
实施例17
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.2重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。
实施例18
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.3重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。
实施例19
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.5重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。
实施例20
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取1重量份的香豆素类的荧光桃红染料(购自吉美染化有限公司的G)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得桃红色织物。以紫外光-可见光(380nm-780nm)照射桃红色织物后,量测桃红色织物的穿透光谱,如图7所示。由图7可知,当染料用料达0.3重量份时,可达最高可见光穿透率,即桃红色织布的荧光强度最强。
实施例21
将1重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)与0.3重量份的二氧化钛粒子(粒径介于100nm至500nm之间)分散于98.7重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。以激发光源(325nm)照射未染色的织物后,量测未染色的织物的荧光分光光谱,如图8所示。
以100重量份的布重为基准,取0.5重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图8所示。
将聚对苯二甲酸乙二酯(PET)酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。以100重量份的布重为基准,取0.5重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图8所示。由图8可知未染色的织物不具有特定可见光的放射现象。具有掺杂氧化锌的复合纤维染色后,比PET纤维染色后的放射更强的特定可见光。
实施例22
将0.48重量份的掺杂铝的氧化锌粒子(粒径介于50nm至150nm之间)分散于99.52重量份的聚对苯二甲酸乙二酯(PET),将上述组成的酯粒经熔融纺丝及假捻加工成规格T75/72DTY的纱线并织造成布。
以100重量份的布重为基准,取0.34重量份的香豆素类的荧光黄染料(购自吉美染化有限公司的10GN)溶于2000重量份的水中。将上述织物浸泡于室温下的荧光染料水溶液后,以2℃/min的速率升温至130℃。于130℃下维持40分钟,冷却后水洗与皂洗之后,烘干即得黄色织物。以激发光源(325nm)照射黄色织物后,量测黄色织物的荧光分光光谱,如图9所示。之后水洗织物20次,以激发光源(325nm)照射水洗后的黄色织物后,量测水洗后的黄色织物的荧光分光光谱,如图9所示。由图9可知,水洗20次后的织物仍具有一定程度的荧光发光,显见染料与织物具有良好的附着性。
虽然本发明已以数个实施例发明如上,然其并非用以限定本发明,任何本技术领域中具有通常知识者,在不脱离本发明的精神和范围内,当可作任意的更动与润饰,因此本发明的保护范围当视后附的申请专利范围所界定者为准。
Claims (11)
1.一种复合纤维,包括:
聚合物纤维;
多个掺杂氧化锌粒子,分散于该聚合物纤维中或者结合至该聚合物纤维;以及
荧光染料,结合至该聚合物纤维,其中所述掺杂氧化锌粒子的光线放射波长与荧光染料的光线吸收波长重叠。
2.如权利要求1所述的复合纤维,其中该聚合物纤维为聚酯纤维、聚丙烯腈纤维、聚丙烯酸酯纤维、纤维素纤维、聚乙烯纤维、聚丙烯纤维、聚酰胺纤维、聚氨基甲酸酯纤维、纤维素醋酸酯纤维、动物纤维、或上述的组合。
3.如权利要求1所述的复合纤维,其中所述掺杂氧化锌粒子掺杂铝、镓、锡、或上述的组合,且(a)铝、镓、锡、或上述的组合的重量与(b)锌及铝、镓、锡、或上述的组合的总重之间的比例介于0.1:100至20:100之间。
4.如权利要求1所述的复合纤维,其中所述掺杂氧化锌粒子与该复合纤维的重量比介于0.1:99.9至20:80之间。
5.如权利要求1所述的复合纤维,更包括多个二氧化钛粒子分散于该聚合物纤维中或者结合至该聚合物纤维,且所述二氧化钛粒子与所述掺杂氧化锌粒子的总重,与该复合纤维的重量比介于0.1:99.9至20:80之间。
6.如权利要求1所述的复合纤维,其中该荧光染料的光线吸收波长介于180nm至600nm之间,且该掺杂氧化锌粒子光线放射波长介于400nm至780nm之间。
7.一种织物,包括:
复合纤维,包括:
第一聚合物纤维;
多个掺杂氧化锌粒子,分散于该第一聚合物纤维中或者结合至该第一聚合物纤维;以及
荧光染料,结合至该第一聚合物纤维,
其中所述掺杂氧化锌粒子的光线放射波长与该荧光染料的光线吸收波长重叠。
8.如权利要求7所述的织物,更包括第二聚合物纤维。
9.如权利要求8所述的织物,其中该第一聚合物纤维与该第二聚合物纤维不同。
10.一种织物,包括:
第一聚合物纤维与第二聚合物纤维;
多个掺杂氧化锌粒子,分散于该第一聚合物纤维中或者结合至该第一聚合物纤维;以及
荧光染料,结合至该第二聚合物纤维,
其中所述掺杂氧化锌粒子光线放射波长与该荧光染料的光线吸收波长重叠。
11.如权利要求10所述织物,其中该第一聚合物纤维与该第二聚合物纤维不同。
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6117189A (en) * | 1994-05-12 | 2000-09-12 | Ciba Specialty Chemicals Corporation | Protective method |
CN102337603A (zh) * | 2010-07-27 | 2012-02-01 | 财团法人工业技术研究院 | 具有吸收红外线功能的纤维、其制法及纺织品 |
CN104762711A (zh) * | 2013-12-18 | 2015-07-08 | 财团法人工业技术研究院 | 具有吸收日光红外线功能的纱线及其纺织品 |
CN105586773A (zh) * | 2014-11-13 | 2016-05-18 | 东丽纤维研究所(中国)有限公司 | 一种拒水抗紫外纺织品及其生产方法和用途 |
CN107009707A (zh) * | 2016-01-08 | 2017-08-04 | 财团法人工业技术研究院 | 复合纺织品 |
KR20180059195A (ko) * | 2016-11-25 | 2018-06-04 | 신동수 | 항균 및 자외선 차단 성능이 우수한 폴리에스테르 섬유 |
-
2019
- 2019-07-11 CN CN201910624419.7A patent/CN111364118A/zh active Pending
- 2019-08-05 US US16/531,677 patent/US20200208304A1/en not_active Abandoned
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6117189A (en) * | 1994-05-12 | 2000-09-12 | Ciba Specialty Chemicals Corporation | Protective method |
CN102337603A (zh) * | 2010-07-27 | 2012-02-01 | 财团法人工业技术研究院 | 具有吸收红外线功能的纤维、其制法及纺织品 |
CN104762711A (zh) * | 2013-12-18 | 2015-07-08 | 财团法人工业技术研究院 | 具有吸收日光红外线功能的纱线及其纺织品 |
CN105586773A (zh) * | 2014-11-13 | 2016-05-18 | 东丽纤维研究所(中国)有限公司 | 一种拒水抗紫外纺织品及其生产方法和用途 |
CN107009707A (zh) * | 2016-01-08 | 2017-08-04 | 财团法人工业技术研究院 | 复合纺织品 |
KR20180059195A (ko) * | 2016-11-25 | 2018-06-04 | 신동수 | 항균 및 자외선 차단 성능이 우수한 폴리에스테르 섬유 |
Non-Patent Citations (1)
Title |
---|
王蕾 等主编: "《仪器分析》", 30 April 2009, 天津大学出版社 * |
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