WO2020248927A1 - 一种三醋酸交织面料的制作方法 - Google Patents
一种三醋酸交织面料的制作方法 Download PDFInfo
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- WO2020248927A1 WO2020248927A1 PCT/CN2020/094861 CN2020094861W WO2020248927A1 WO 2020248927 A1 WO2020248927 A1 WO 2020248927A1 CN 2020094861 W CN2020094861 W CN 2020094861W WO 2020248927 A1 WO2020248927 A1 WO 2020248927A1
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
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- D—TEXTILES; PAPER
- D03—WEAVING
- D03D—WOVEN FABRICS; METHODS OF WEAVING; LOOMS
- D03D15/00—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used
- D03D15/50—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the properties of the yarns or threads
- D03D15/56—Woven fabrics characterised by the material, structure or properties of the fibres, filaments, yarns, threads or other warp or weft elements used characterised by the properties of the yarns or threads elastic
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2201/00—Cellulose-based fibres, e.g. vegetable fibres
- D10B2201/20—Cellulose-derived artificial fibres
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- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2331/00—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
- D10B2331/04—Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyesters, e.g. polyethylene terephthalate [PET]
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- the invention relates to a manufacturing method of triacetic acid interwoven fabric.
- Triacetate is extracted from eucalyptus, Conifer, made into wood pulp, added with acetate spinning to form a new type of cellulose fiber, soft and smooth, good moisture absorption and air permeability, antibacterial and anti-allergic, no static electricity, and protect the skin.
- the irregular grooves on the fiber surface form reflective astigmatism on the light, producing a soft and natural luster.
- the technical problem to be solved by the present invention is to overcome the shortcomings of the prior art and provide a method for manufacturing triacetic acid interwoven fabric.
- a manufacturing method of triacetic acid interwoven fabric includes the following steps:
- step 1 Take triacetate filament and modal fiber and form a blended yarn according to 45:55 as the warp of the fabric for use; 2 Take matte POY and matt SSY as the raw material for the weft of the fabric; 3, follow step 1
- the formed blended yarn is placed in a moisturizing room; 4, the blended yarn treated in step 3 is sizing; 5, the sizing blended yarn in step 4 is threaded, 1-10 straight through, and the reed is 18 #*3 ⁇ ; 6, the matting POY and matting SSY in step 2 are combined and twisted to form a matting elastic composite yarn; 7, the matting elastic composite yarn obtained in step 6 is shaped and rewinding; 8 ⁇ Use the air-jet dobby loom to weave the matte elastic composite yarn and the blended yarn.
- the weaving pattern is set according to the heddle method; in step 1, the blended yarn is 40s/1, and its twist is 700 twists. It is the S direction; the fineness of the matt POY and matt SSY used in step 2 are 50D and 100D, respectively; in step 3, the temperature of the blended yarn in the moisturizing room is 25°C, the humidity is 75%, and the moisturizing time is 12 hours; The sizing rate in step 4 is 8.5%; the actual fineness of the matte elastic composite yarn obtained in step 6 is 180D; the twist of the matte elastic composite yarn obtained in step 6 is 1400 twists, and the twist direction is 1S:1Z ; In step 8, the composite yarn on the loom has two twisted bobbins, and they are arranged in 1:1; step 8 in the heddle method (later one): one, 2-4-10, two, 1-4- 5-9, three, 2-3-4-5-6-8-10, four, 3-4-5-7-9, five, 4-6-8, six, 5-7-9, seven, 4-6-8-9-10, eight,
- a manufacturing method of triacetate interwoven fabric includes the following steps: 1, taking triacetate filament and modal fiber and forming a blended yarn at 45:55 as the warp of the fabric for standby; 2, using matting POY and matt SSY are used as weft raw materials for fabrics; 3, put the blended yarn formed in step 1 in a moisturizing room for moisture retention; 4, sizing the blended yarn processed in step 3; 5, sizing in step 4 The final blended yarn is threaded through, 1-10 straight through, and the steel reed is 18#*3 reed; 6, the matting POY and matting SSY in step 2 are combined and twisted to form a matting elastic composite yarn; 7, The matte elastic composite yarn obtained after processing in step 6 is shaped and rewinded; 8, the matte elastic composite yarn and the blended yarn are weaved using an air jet dobby loom, and the weaving pattern is set according to the heald method.
- the blended yarn in step 1 is 40s/1
- the twist is 700 twists
- the twist direction is S direction.
- the fineness of the extinction POY and extinction SSY used in step 2 is 50D and 100D, respectively.
- the temperature of treating the blended yarn in the moisturizing room is 25° C.
- the humidity is 75%
- the moisturizing time is 12 hours.
- the sizing rate in step 4 is 8.5%.
- the actual fineness of the matte elastic composite yarn obtained after processing in step 6 is 180D.
- the twist of the matte elastic composite yarn obtained after processing in step 6 is 1400 twists, and the twist direction is 1S:1Z.
- the composite yarn on the loom has two twisted bobbins, and they are arranged in a ratio of 1:1.
- the hedging method in step 8 (later one): one, 2-4-10, two, 1-4-5-9, three, 2--3-4-5-6-8-10, four , 3-4-5-7-9, five, 4-6-8, six, 5-7-9, seven, 4-6-8-9-10, eight, 1-3-5-7-8 -9-10, nine, 2-4-8-9-10, ten, 1-3-9.
- the present invention has the following advantages compared with the prior art:
- the manufacturing method of the triacetate interwoven fabric of the present invention blends acetic acid and modal fibers, and then the blended yarn is interwoven with elastic polyester (composite yarn composed of matte POY and matte SSY), which can combine all the excellent properties of the blended yarn with
- elastic polyester composite yarn composed of matte POY and matte SSY
- the flatness, crispness, elasticity, and drape of polyester elastic fiber are combined with complementary advantages and functions, and can be made into a new multifunctional fabric; in addition, the design of the weft matting yarn, in line with the product structure, can highlight the warp direction
- the bright and soft luster of natural fiber forms a natural three-dimensional appearance style with bright warp and dark weft.
- SSY elastic yarn in the weft direction allows the product to stretch freely in the horizontal direction, giving clothing comfort and stretchability, and the twisting of the weft yarn ensures The slippery feel and sag of the fabric.
- This technology is a technical solution put forward after a lot of practice. From the perspective of process and effect, the process is scientific and reasonable, the safety is high, there is no pollution, there is no danger, the production efficiency and product quality are guaranteed, and the product style and quality are unique and fully demonstrated High-end, comfortable and noble new fabric varieties. This method is worthy of popularization and application.
- Figure 1 is a schematic diagram of the texture of a fabric in a specific embodiment of the present invention.
- a manufacturing method of triacetic acid interwoven fabric includes the following steps:
- the blended yarn is 40s/1, its twist is 700 twists, and the twist direction is S direction.
- the fineness of the matte POY and matte SSY used in step 2 are 50D and 100D, respectively.
- step 3 Place the blended yarn formed in step 1 in a moisturizing room for moisturizing.
- the temperature of the blended yarn treated in the moisturizing room is 25°C, the humidity is 75%, and the moisturizing time is 12 hours; moisturizing can make the blended yarn balance its hardness, Tension, hairiness and humidity to improve quality and facilitate subsequent production.
- the matting POY and matting SSY in step 2 are combined and twisted to form a matte elastic composite yarn.
- the actual fineness of the matte elastic composite yarn is 180D
- the twist of the matte elastic composite yarn is 1400 twists
- the twist direction is 1S:1Z ;
- step 6 Shape and rewind the matte elastic composite yarn obtained in step 6; according to the conventional process, shape and rewind the matte elastic composite yarn to provide a large package, uniform tension and well-formed weft yarn for the weaving process .
- the air-jet dobby loom uses the air-jet dobby loom to weave the matte elastic composite yarn and the blended yarn.
- the composite yarn on the loom has two twisted bobbins, which are arranged according to 1:1.
- the weaving pattern is according to the heald method Setting, lifting method (later one): one, 2-4-10, two, 1-4-5-9, three, 2--3-4-5-6-8-10, four, 3-4 -5-7-9, five, 4-6-8, six, 5-7-9, seven, 4-6-8-9-10, eight, 1-3-5-7-8-9-10 , Nine, 2-4-8-9-10, ten, 1-3-9.
- the manufacturing method of the triacetate interwoven fabric of the present invention blends acetic acid and modal fibers, and then the blended yarn is interwoven with elastic polyester (composite yarn composed of matte POY and matte SSY), which can combine all the excellent properties of the blended yarn with The flatness, stiffness, elasticity, and drape of polyester elastic fiber are combined with complementary advantages and functions, and can be made into a new multifunctional fabric;
- a tri-acetic acid interwoven fabric produced according to the production method of the present invention density design: machine 18#*3*188cm, 29 shuttles.
- Organization design The number of cycles of the basic organization is 10*10. See Figure 1.
- the vertical direction is warp yarn and the horizontal direction is weft yarn.
- the long floating length of the front and back sides is matched with the elastic contraction in the weft direction to make the planar organizational structure in
- the finished product presents a new pattern of bright and shiny warp threads and a honeycomb style connected by small dislocations.
- Technical indicators warp yarn 40s triacetate filament and modal blended yarn 45/55, weft yarn: 180D (dull POY+ SSY) composite yarn.
- the design of the weft matting yarn can highlight the bright and soft luster of the natural fibers in the warp direction, forming a natural three-dimensional appearance style with bright warp and dark weft.
- the elastic yarn of the weft yarn makes the product stretch freely in the horizontal direction. It gives clothing comfort and stretchability, and the twisting of the weft ensures the slippery feel and sag of the fabric.
- Modal fiber is made of European and American beech wood through beating and spinning.
- the raw material is 100% natural, harmless to the human body, can be decomposed naturally, and has excellent wearing comfort.
- the characteristic of Modal is that it combines the luxurious texture of natural fiber with the practicality of synthetic fiber. It has the softness of cotton, the luster of silk, the smoothness of hemp, and its water absorption and air permeability are better than cotton, and it has a higher upper Dyeing rate, the fabric color is bright and full.
- the manufacturing method of the triacetic acid interwoven fabric of the present invention is a technical solution proposed after a lot of practice. From the perspective of process and effect, the process is scientific and reasonable, the safety is high, there is no pollution, no danger, and the production efficiency and product quality are guaranteed. The style and quality are unique, showing the high-end, comfortable and noble new fabric varieties. This method is worthy of popularization and application.
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Abstract
本发明涉及一种三醋酸交织面料的制作方法,所述制作方法包括如下步骤:①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱;②、取用消光POY和消光SSY;③、将混纺纱放置保湿间保湿;④、对混纺纱进行上浆;⑤、对混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;⑥、将消光POY和消光SSY并网加捻并形成消光弹性复合丝;⑦、将消光弹性复合丝定型和倒筒;⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布;本发明的制作方法是经过大量的实践后提出的技术方案,从过程和效果看,工艺科学合理,安全度高,没有污染,没有危险,生产效率和产品质量有保证,产品风格与品质别具一格,尽显高档、舒适、尊贵的新型面料品种。该方法值得推广应用。
Description
本发明涉及一种三醋酸交织面料的制作方法。
现有技术中的面料外观也都大同小异,面料都较为平常无奇,随着人们生活水平的提高,对于消费者而言,体验不够好;三醋酸纤维是提取加拿大、巴西等美洲国家的桉树、针叶树,制成木浆,加入醋酯纺丝形成的一种新型纤维素纤维,手感柔软滑爽,吸湿透气优良,抗菌抗过敏,无静电,保护皮肤。其纤维表面的不规则沟纹对光线形成反射性散光,产生柔美自然的光泽。如何利用三醋酸纤维的优良特性开发一款穿着舒适、外产品风格与品质一格,且尽显高档、尊贵的面料,以便让消费者或者更好的穿戴体验成为本领域技术人员需要考虑的问题。
发明内容
本发明所要解决的技术问题是克服现有技术的不足,提供一种三醋酸交织面料的制作方法。
为解决上述技术问题,本发明采取的技术方案如下:
一种三醋酸交织面料的制作方法,制作方法包括如下步骤:
①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱,作为面料的经纱备用;②、取用消光POY和消光SSY,作为面料的纬纱原料备用;③、将步骤①中形成的混纺纱放置保湿间保湿;④、对经步骤③处理后的混纺纱进行上浆;⑤、对步骤④中上浆后的混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;⑥、将步骤②中的消光POY和消光SSY并网加捻并形成消光弹性复合丝;⑦、将步骤⑥中处理后的得到的消光弹性复合丝定型和倒筒;⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布,织布纹板图按起综法设置;步骤①中混纺纱为40s/1,其捻度为700捻,捻向为S向;步骤②取用的消光POY和消光SSY的细度分别为50D和100D;步骤③中保湿间中处理混纺纱的温度为25℃,湿度为75%,保湿时间为12小时;步骤④中上浆率为8.5%;步骤⑥中处理后得到的消光弹性复合丝的实际细度为180D;步骤⑥中处理后得到的消光弹性复合丝的捻度为1400捻,捻向为1S:1Z;步骤⑧中织布机上复合丝有两种捻向的筒子,并按1:1排列;步骤⑧中起综法(后作一):一、2-4-10,二、1-4-5-9,三、2-3-4-5-6-8-10,四、3-4-5-7-9,五、4-6-8,六、5-7-9,七、4-6-8-9-10,八、1-3-5-7-8-9-10,九、2-4-8-9-10,十、1-3-9。
一种三醋酸交织面料的制作方法,所述制作方法包括如下步骤:①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱,作为面料的经纱备用;②、取用消光POY和消光SSY,作为面料的纬纱原料备用;③、将步骤①中形成的混纺纱放置保湿间保湿;④、对经步骤③处理后的混纺纱进行上浆;⑤、对步骤④中上浆后的混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;⑥、将步骤②中的消光POY和消光SSY并网加捻并形成消光弹性复合丝;⑦、将步骤⑥中处理后的得到的消光弹性复合丝定型和倒筒;⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布,织布纹板图按起综法设置。
优选地,步骤①中混纺纱为40s/1,其捻度为700捻,捻向为S向。
优选地,步骤②取用的消光POY和消光SSY的细度分别为50D和100D。
优选地,步骤③中保湿间中处理混纺纱的温度为25℃,湿度为75%,保湿时间为12小时。
优选地,步骤④中上浆率为8.5%。
优选地,步骤⑥中处理后得到的消光弹性复合丝的实际细度为180D。
优选地,步骤⑥中处理后得到的消光弹性复合丝的捻度为1400捻,捻向为1S:1Z。
优选地,步骤⑧中织布机上复合丝有两种捻向的筒子,并按1:1排列。
优选地,步骤⑧中起综法(后作一):一、2-4-10,二、1-4-5-9,三、2-3-4-5-6-8-10,四、3-4-5-7-9,五、4-6-8,六、5-7-9,七、4-6-8-9-10,八、1-3-5-7-8-9-10,九、2-4-8-9-10,十、1-3-9。
由于以上技术方案的实施,本发明与现有技术相比具有如下优点:
本发明的三醋酸交织面料的制作方法,将醋酸和莫代尔二种纤维混纺,再混纺纱与弹性涤纶交织(消光POY和消光SSY组成的复合丝),可将混纺纱所有的优异性能与涤纶弹丝纤维的平整、挺括、弹性、悬垂等结合起来,优势互补,功能互补,可制成新型多功能的面料;此外,纬纱消光丝的设计,配合产品的组织结构,可以突出显示经向天然纤维的明亮、柔和的光泽,形成经亮纬暗的自然立体外观风格,纬向SSY的弹性丝,使产品横向伸缩自如,赋予服装穿着的舒适性和伸展性,纬纱的加捻,保证了面料的滑感和垂度。本项技术是经过大量的实践后提出的技术方案,从过程和效果看,工艺科学合理,安全度高,没有污染,没有危险,生产效率和产品质量有保证,产品风格与品质别具一格,尽显高档、舒适、尊贵的新型面料品种。该方法值得推广应用。
图1为本发明具体实施方式中面料的纹理示意图;
下面结合附图和具体的实施例对本发明做进一步详细的说明。
一种三醋酸交织面料的制作方法,所述制作方法包括如下步骤:
①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱,作为面料的经纱备用;混纺纱为40s/1,其捻度为700捻,捻向为S向。选地,步骤②取用的消光POY和消光SSY的细度分别为50D和100D。
②、取用消光POY和消光SSY,作为面料的纬纱原料备用;
③、将步骤①中形成的混纺纱放置保湿间保湿,保湿间中处理混纺纱的温度为25℃,湿度为75%,保湿时间为12小时;保湿能够让混纺纱平衡其硬度、张力、毛羽和湿度,以提高品质,便于后道生产。
④、使用环保材料对经步骤③处理后的混纺纱进行上浆,上浆率为8.5%;
⑤、对步骤④中上浆后的混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;
⑥、将步骤②中的消光POY和消光SSY并网加捻并形成消光弹性复合丝,消光弹性复合丝的实际细度为180D,消光弹性复合丝的捻度为1400捻,捻向为1S:1Z;
⑦、将步骤⑥中处理后的得到的消光弹性复合丝定型和倒筒;按常规工艺,将消光弹性复合丝定型和倒筒,为织造工序提供大卷装、张力均匀、成型良好的纬纬纱。
⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布,织布机上复合丝有两种捻向的筒子,并按1:1排列,织布纹板图按起综法设置,起综法(后作一):一、2-4-10,二、1-4-5-9,三、2-3-4-5-6-8-10,四、3-4-5-7-9,五、4-6-8,六、5-7-9,七、4-6-8-9-10,八、1-3-5-7-8-9-10,九、2-4-8-9-10,十、1-3-9。
本发明的三醋酸交织面料的制作方法,将醋酸和莫代尔二种纤维混纺,再混纺纱与弹性涤纶交织(消光POY和消光SSY组成的复合丝),可将混纺纱所有的优异性能与涤纶弹丝纤维的平整、挺括、弹性、悬垂等结合起来,优势互补,功能互补,可制成新型多功能的面料;
按本发明的制作方法制作的一款三醋酸交织面料,密度设计:上机18#*3*188cm,29梭。组织设计:基本组织的循环数为10*10,参见图一,图一中竖向为经纱,横向是纬纱,通过正反双向的长浮长配合纬向的弹力收缩,使平面的组织结构在成品上呈现经线明亮光泽及小型错位相连的蜂巢风格的新型图案。技术指标:经纱40s三醋酸长丝与莫代尔混纺纱45/55,纬线:180D(消光POY+消乐SSY)复合丝。小提花组织,成品75*31根/cm,幅宽150cm,重量225克/平米,成分28%ACETATE,36%MODAL,36%POLYESTER。质量偏差度±3.0%,水洗尺寸变化率:经向-5~+3%,纬向±3%,断裂强力:≥200N,干摩擦色牢度3-4级。
纬纱消光丝的设计,配合产品的组织结构,可以突出显示经向天然纤维的明亮、柔和的光泽,形成经亮纬暗的自然立体外观风格,纬向SSY的弹性丝,使产品横向伸缩自如,赋予服装穿着的舒适性和伸展性,纬纱的加捻,保证了面料的滑感和垂度。
莫代尔纤维是采用欧美洲的榉木,经打浆、纺丝而成,原料100%是天然的,对人体无害,能自然分解,穿着舒适性极好。莫代尔的特点是将天然纤维豪华质感与合成纤维的实用性合二为一,具有棉的柔软、丝的光泽,麻的滑爽,而且其吸水、透气性能都优于棉,具有较高的上染率,织物颜色明亮而饱满。本发明的三醋酸交织面料的制作方法是经过大量的实践后提出的技术方案,从过程和效果看,工艺科学合理,安全度高,没有污染,没有危险,生产效率和产品质量有保证,产品风格与品质别具一格,尽显高档、舒适、尊贵的新型面料品种。该方法值得推广应用。
以上对本发明做了详尽的描述,其目的在于让熟悉此领域技术的人士能够了解本发明的内容并加以实施,并不能以此限制本发明的保护范围,凡根据本发明的精神实质所作的等效变化或修饰,都应涵盖在本发明的保护范围内。
Claims (10)
- 一种三醋酸交织面料的制作方法,其特征在于:所述制作方法包括如下步骤:①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱,作为面料的经纱备用;②、取用消光POY和消光SSY,作为面料的纬纱原料备用;③、将步骤①中形成的混纺纱放置保湿间保湿;④、对经步骤③处理后的混纺纱进行上浆;⑤、对步骤④中上浆后的混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;⑥、将步骤②中的消光POY和消光SSY并网加捻并形成消光弹性复合丝;⑦、将步骤⑥中处理后的得到的消光弹性复合丝定型和倒筒;⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布,织布纹板图按起综法设置;步骤①中混纺纱为40s/1,其捻度为700捻,捻向为S向;步骤②取用的消光POY和消光SSY的细度分别为50D和100D;步骤③中保湿间中处理混纺纱的温度为25℃,湿度为75%,保湿时间为12小时;步骤④中上浆率为8.5%;步骤⑥中处理后得到的消光弹性复合丝的实际细度为180D;步骤⑥中处理后得到的消光弹性复合丝的捻度为1400捻,捻向为1S:1Z;步骤⑧中织布机上复合丝有两种捻向的筒子,并按1:1排列;步骤⑧中起综法(后作一):一、2-4-10,二、1-4-5-9,三、2-3-4-5-6-8-10,四、3-4-5-7-9,五、4-6-8,六、5-7-9,七、4-6-8-9-10,八、1-3-5-7-8-9-10,九、2-4-8-9-10,十、1-3-9。
- 一种三醋酸交织面料的制作方法,其特征在于:所述制作方法包括如下步骤:①、取用三醋酸长丝和莫代尔纤维并按45:55形成混纺纱,作为面料的经纱备用;②、取用消光POY和消光SSY,作为面料的纬纱原料备用;③、将步骤①中形成的混纺纱放置保湿间保湿;④、对经步骤③处理后的混纺纱进行上浆;⑤、对步骤④中上浆后的混纺纱穿经,1-10顺穿,钢筘为18#*3入筘;⑥、将步骤②中的消光POY和消光SSY并网加捻并形成消光弹性复合丝;⑦、将步骤⑥中处理后的得到的消光弹性复合丝定型和倒筒;⑧、使用喷气多臂织机将消光弹性复合丝和混纺纱进行织布,织布纹板图按起综法设置。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤①中混纺纱为40s/1,其捻度为700捻,捻向为S向。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤②取用的消光POY和消光SSY的细度分别为50D和100D。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤③中保湿间中处理混纺纱的温度为25℃,湿度为75%,保湿时间为12小时。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤④中上浆率为8.5%。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤⑥中处理后得到的消光弹性复合丝的实际细度为180D。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤⑥中处理后得到的消光弹性复合丝的捻度为1400捻,捻向为1S:1Z。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤⑧中织布机上复合丝有两种捻向的筒子,并按1:1排列。
- 根据权利要求2所述的三醋酸交织面料的制作方法,其特征在于:步骤⑧中起综法(后作一):一、2-4-10,二、1-4-5-9,三、2-3-4-5-6-8-10,四、3-4-5-7-9,五、4-6-8,六、5-7-9,七、4-6-8-9-10,八、1-3-5-7-8-9-10,九、2-4-8-9-10,十、1-3-9。
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