CN114892402B - 一种超柔软生态环保面料及其加工工艺 - Google Patents
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Abstract
本发明涉及一种超柔软生态环保面料及其加工工艺,属于面料技术领域,包括以下步骤:将棉纤维和丙烯酸纤维进行氧等离子体处理,得到预处理混合纤维;将预处理混合纤维和金属离子溶液混合,冰水浴中超声处理,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;将纳米复合纤维浸渍在丝素蛋白/壳聚糖复合溶液中,浸渍完成后,用滚筒浸轧,在真空烘箱中干燥,反复操作,再编织成面料,即得一种超柔软生态环保面料。本发明技术方案中,通过将棉纤维和丙烯酸纤维进行混合提升了面料的柔软性和舒适性,通过在棉纤维上沉积Ag纳米粒子增加了面料的抗菌性能,壳聚糖协同Ag纳米粒子达到更好地抗菌效果。
Description
技术领域
本发明属于面料技术领域,具体地,涉及一种超柔软生态环保面料及其加工工艺。
背景技术
在服装大世界里,服装的面料五花八门,日新月异。但是从总体上来讲,优质、高档的面料,大都具有穿著舒适、吸汗透气、悬垂挺括、视觉高贵、触觉柔美等几个方面的特点。制作在正式的社交场合所穿著的服装,宜选纯棉、纯毛、纯丝、纯麻制品。以这四种纯天然质地面料制作的服装,大都档次较高。生态环保面料一般由RPET面料、有机棉、彩色棉、竹纤维、大豆蛋白纤维、麻纤维、莫代尔(Modal)、有机羊毛、原木天丝等,但是生态环保面料在柔软性上有点欠缺。
因此,生态环保面料为了保证面料的环保性,现有的生态环保面料一般由一种材质制成,从而避免复合加工中产生的污染,因此生态环保面料虽然具有环保的特点,但是在柔软性上具有一定的欠缺,造成面料的柔软性和舒适性等特点不可兼得,通过这种面料制得的衣物虽然具有环保性,但是柔软性大大降低,消费者穿戴在身上没有舒服的感觉。
同时,随着人们对面料使用的安全,希望面料具有一定的抗菌性能。但是抗菌性能的获得,多是会与环保的要求相违背,因此如何考虑环保和生态环保的协和也成为当前面料的研发方向。
发明内容
本发明的目的在于提供一种超柔软生态环保面料及其加工工艺,通过将棉纤维和丙烯酸纤维进行混合提升了面料的柔软性和舒适性,通过在棉纤维上沉积Ag纳米粒子增加了面料的抗菌性能,壳聚糖协同Ag纳米粒子达到更好地抗菌效果。
本发明要解决的技术问题:现有的面料虽然具有环保的特点,但是在柔软性上具有一定的欠缺,造成面料的柔软性和舒适性等特点不可兼得。
本发明的目的可以通过以下技术方案实现:
一种超柔软生态环保面料的加工工艺,包括以下步骤:
S1、将棉纤维和丙烯酸纤维进行氧等离子体处理,得到预处理混合纤维;
S2、将预处理混合纤维和金属离子溶液混合,冰水浴中超声处理30min,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;
S3、将纳米复合纤维浸渍在丝素蛋白/壳聚糖复合溶液中,浸渍完成后,用滚筒浸轧, 在80℃的真空烘箱中干燥,反复操作3-4次,再编织成面料,即得一种超柔软生态环保面料。
进一步地,步骤S1中,棉纤维和丙烯酸纤维的质量比为6-8:2-4。
进一步地,氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min。
进一步地,金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得。
进一步地,步骤S2中,预处理混合纤维和金属离子溶液的用量比为40-60mg:6mL。
进一步地,壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为2-3mL:4-6mL。
进一步地,步骤S3中,纳米复合纤维和丝素蛋白/壳聚糖复合溶液的用量比为30-40mg:6-9mL。
本发明的有益效果:
本发明技术方案中,通过将棉纤维和丙烯酸纤维进行混纺,综合了棉纤维的环保性和丙烯酸纤维的超柔软性,进而实现了复合纤维的综合性能,即更好的柔软性、舒适性和环保性,超声处理混合纤维,使得混合纤维中的棉纤维中的糖苷键断裂生成自由基,自由基可以还原溶液中的Ag离子,还原的金属Ag被纤维素链稳定为纳米颗粒,实现在纤维上的沉积,通过浸渍丝素蛋白/壳聚糖复合溶液,丝素蛋白作为一种天然高分子蛋白质,具有优异的加工能力、力学性能、亲水性、生物相容性和生物降解性,用丝素蛋白处理织物可以提高织物的吸湿性、抗静电和舒适性,壳聚糖可以协同金属Ag实现抗菌功效,壳聚糖本身也是可以生物降解的材料,所以只需负载少量的金属Ag,便可实现良好的抗菌性能,复合纤维通过简便的氧等离子体处理改性,实现了抗菌织物的简单绿色生产,且这种改性织物具有优异的生物安全性、可持续抗菌性、吸湿性和透气性,所以通过被发明制得的面料不但具有超柔软和环保特性,还具有亲肤和抗菌特性。
具体实施方式
下面将结合本发明实施例,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其它实施例,都属于本发明保护的范围。
实施例1
一种超柔软生态环保面料的加工工艺,包括以下步骤:
S1、将6g棉纤维和2g丙烯酸纤维进行氧等离子体处理,氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min,得到预处理混合纤维;
S2、将40mg预处理混合纤维和6mL金属离子溶液混合,金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得,冰水浴中超声处理30min,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;
S3、将30mg纳米复合纤维浸渍在6mL丝素蛋白/壳聚糖复合溶液中,壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为2mL:4mL,浸渍完成后,用滚筒浸轧, 在80℃的真空烘箱中干燥,反复操作3次,再编织成面料,即得一种超柔软生态环保面料。
实施例2
一种超柔软生态环保面料的加工工艺,包括以下步骤:
S1、将7g棉纤维和3g丙烯酸纤维进行氧等离子体处理,氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min,得到预处理混合纤维;
S2、将50mg预处理混合纤维和7mL金属离子溶液混合,金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得,冰水浴中超声处理30min,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;
S3、将35mg纳米复合纤维浸渍在8mL丝素蛋白/壳聚糖复合溶液中,壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为2.5mL:5mL,浸渍完成后,用滚筒浸轧, 在80℃的真空烘箱中干燥,反复操作3次,再编织成面料,即得一种超柔软生态环保面料。
实施例3
一种超柔软生态环保面料的加工工艺,包括以下步骤:
S1、将8g棉纤维和4g丙烯酸纤维进行氧等离子体处理,氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min,得到预处理混合纤维;
S2、将50mg预处理混合纤维和7mL金属离子溶液混合,金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得,冰水浴中超声处理30min,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;
S3、将40mg纳米复合纤维浸渍在9mL丝素蛋白/壳聚糖复合溶液中,壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为3mL:6mL,浸渍完成后,用滚筒浸轧, 在80℃的真空烘箱中干燥,反复操作4次,再编织成面料,即得一种超柔软生态环保面料。
对比例
一种超柔软生态环保面料的加工工艺,包括以下步骤:
S1、将8g棉纤维和4g丙烯酸纤维进行氧等离子体处理,氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min,得到预处理混合纤维;
S2、将40mg预处理混合纤维浸渍在7mL金属离子溶液和9mL丝素蛋白/壳聚糖复合溶液中,金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得,壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为3mL:6mL,浸渍完成后,用滚筒浸轧, 在80℃的真空烘箱中干燥,反复操作4次,再编织成面料,即得一种超柔软生态环保面料。
现对实施例1-3及对比例制备的一种超柔软生态环保面料进行性能检测,
抗菌效果按照GB/T 20944.2-2007进行测定,大肠杆菌和金黄色葡萄球菌的抗菌率;
邀请20名志愿者参与,对面料的柔软度、弹性和舒适度进行评价,测试结果如下表1所示。
由上表1可知,本发明实施例制备的一种超柔软生态环保面料相比于对比例具有更好的抗菌效果和舒适性。
在说明书的描述中,参考术语“一个实施例”、“示例”、“具体示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本发明的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或示例。而且,描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
以上内容仅仅是对本发明所作的举例和说明,所属本技术领域的技术人员对所描述的具体实施例做各种各样的修改或补充或采用类似的方式替代,只要不偏离发明或者超越本权利要求书所定义的范围,均应属于本发明的保护范围。
Claims (6)
1.一种超柔软生态环保面料的加工工艺,其特征在于:包括以下步骤:
S1、将棉纤维和丙烯酸纤维进行氧等离子体处理,得到预处理混合纤维;氧等离子体处理的参数为:工作压力保持在40Pa,氧气流量为100SCCM,处理功率为80W,处理时间为6min;
S2、将预处理混合纤维和金属离子溶液混合,冰水浴中超声处理30min,经去离子水洗涤和真空中干燥后,得到纳米复合纤维;金属离子溶液是将0.425g的AgNO3溶解在1000mL去离子水中制得;
S3、将纳米复合纤维浸渍在丝素蛋白/壳聚糖复合溶液中,浸渍完成后,用滚筒浸轧,在80℃的真空烘箱中干燥,反复操作3-4次,再编织成面料,即得一种超柔软生态环保面料。
2.根据权利要求1所述的一种超柔软生态环保面料的加工工艺,其特征在于:步骤S1中,棉纤维和丙烯酸纤维的质量比为6-8:2-4。
3.根据权利要求1所述的一种超柔软生态环保面料的加工工艺,其特征在于:步骤S2中,预处理混合纤维和金属离子溶液的用量比为40-60mg:6-8mL。
4.根据权利要求1所述的一种超柔软生态环保面料的加工工艺,其特征在于:壳聚糖溶液的浓度为0.5wt%,丝素蛋白溶液的浓度为3wt%,丝素蛋白/壳聚糖复合溶液中丝素蛋白溶液与壳聚糖溶液的体积比为2-3mL:4-6mL。
5.根据权利要求1所述的一种超柔软生态环保面料的加工工艺,其特征在于:步骤S3中,纳米复合纤维和丝素蛋白/壳聚糖复合溶液的用量比为30-40mg:6-9mL。
6.一种如权利要求1-5任一项所述的加工工艺制得的超柔软生态环保面料。
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