Studying the Effect of Polyester Fiber Blend Ratio and Pilling Cycle on Blended Knit Fabrics

Pilling is a severe concern for blended fabrics. The aesthetic look and smoothness are the buyers’ prime requirements. The main focus of the study was to see the pilling behavior from various percentages of polyester fiber blend ratio as well as the different pilling cycles on blended fabrics. The cotton, polyester, and elastane prepared the study fabrics. These fabrics are (90% Cotton/5% Polyester/5% Elastane, 90% Cotton/6% Polyester/4% Elastane, 90% Cotton/7% Polyester/3% Elastane, 90% Cotton/8% Polyester/2% Elastane, and 90% Cotton/9% Polyester/1% Elastane, 85% Cotton/10% Polyester/5% Elastane, 85% Cotton/11% Polyester/4% Elastane, 85% Cotton/12% Polyester/3% Elastane, 85% Cotton/13% Polyester/2% Elastane, and 85% Cotton/ 14% Polyester/1% Elastane, 80% Cotton/15% Polyester/5% Elastane, 80% Cotton/16% Polyester/4% Elastane, 80% Cotton/17% Polyester/3% Elastane, 80% Cotton/18% Polyester/2% Elastane, and 80% Cotton/19% Polyester/1% Elastane). The selected polyester blend ratios were 5%, 6%, 7%, 8%, 9%, 10%, 11%, 12%, 13%, 14%, 15%, 16%, 17%, 18% and 19% respectively. The study used the Martindale pilling tester with 2000, 5000, and 7000 cycles, respectively. The evaluation followed the ISO 12945-2:2000. The study findings are that the polyester fiber blend ratio did not influence the pilling grade on blended fabrics for pilling cycles 2000, and the pilling grade remained constant at 4 - 5. The pilling grade started to deteriorate in pilling cycle 5000 for the fabrics 85%C/10%P/5%E, 85%C/11%P/4%E, 85%C/12%P/3%E, 85%C/ 13%P/2%E, 85%C/14%P/1%E showed the pilling grade 4, and the fabrics made from 80%C/15%P/5%E, 80%C/16%P/4%E, 80%C/17%P/3%E, 80%C/ 18%P/2%E, 80%C/19%P/1%E showed the pilling grade 4, 3, 3, 3, and 3 respectively. For the pilling cycles 7000, the pilling grade further deteriorated for the fabrics 80%C/15%P/5%E, 80%C/16%P/4%E, 80%C/17%P/3%E, 80%C/ 18%P/2%E, 80%C/19%P/1%E showed the pilling grade 3, 3, 2, 2, and 2 respectively. The study finds the dominance of polyester fiber throughout the experiment. The author hopes this study’s outcome will help new researchers, advanced researchers, and the textile industry’s sustainable development research and development team.

Research on the Dyeing Properties of Silk-like Knitted Fabric of Ultra-fine Polyester Fiber

In this paper, dyeing processes of silk-like fabric of ultra-fine polyester fiber are studied through orthogonal experiment, dyeing properties (K/S value, L* value, and C* value) of the fabric are tested under different dyeing conditions (pH value, time, and bath ratlo), and optimum dyeing conditions are arrived at through analysis.

Flexural Properties of Weft Knitted Fabric Reinforced Composites

Several different kinds of weft knitted fabrics from glass fiber yarns were used as reinforcement to make fabric/polyester composite laminates. Flexural tests were carried out to examine stress- deflection process and compare the mechanical properties in course and wale directions of these composites. The experimental results indicate that the numbers of load-bearing yarn in course and wale direction and the fabric density are the main factors influencing the ultimate tensile strength and initial elastic modulus of specimens.

Improved Polyurethane-coated Orthopedic Casting Bandage for Medical Application

A new improved polyester casting bandage, which comprises a knitted polyester substrate coated with polyurethane prepolymer, was developed. The appropriate polyester knitted substrate was selected firstly; the optimal ingredient for the synthesis of coating resin (polyurethane prepolymer) was determined then through a series of trial experiments and factorial experiments; the properties of bandage were checked at last. The results of the experiment indicate that most of the properties of the new product could exceed or approximate to the level of similar product of other countries.

基于热膨胀微球的隔热聚酯织物性能

采用热膨胀微球和聚丙烯酸酯黏合剂对聚酯织物进行涂层改性,并采用聚氨酯薄膜提高热膨胀微球在聚酯织物表面的黏附性能。对涂层聚酯织物的表面形貌、厚度、隔热性能等进行分析。研究结果表明:热膨胀微球在110℃焙烘1.0 min后具有良好的膨胀发泡性能,无破损现象;经聚氨酯涂层整理后,隔热聚酯织物具有较好的耐摩擦性能。此外,聚酯织物的热传导性能显著降低,导热系数从涂层前的0.13120 W/m·K降低至0.06098 W/m·K。当涂层聚酯织物放置在50℃和100℃加热台上5 min时,其表面温度比未涂层的聚酯织物,分别降低了约9.7℃和23.1℃,表明热膨胀微球涂层聚酯织物具有良好的隔热性能。

含磷氮水性聚氨酯的制备及其在涤纶织物阻燃整理中应用

为提高水性聚氨酯(WPU)整理涤纶织物的阻燃效果,以含磷、氮希夫碱衍生物阻燃剂(DOPO-HAMB)为扩链剂合成本质阻燃WPU(FRWPU),通过浸渍法将FRWPU涂敷到涤纶织物表面,研究DOPO-HAMB在FRWPU中的质量百分比对热分解性能、阻燃性能、力学性能和耐水洗性能的影响。结果表明:与原涤纶织物相比,整理后涤纶织物最大热失重速率降低,降低幅度随DOPO-HAMB质量百分比的增加而增加;极限氧指数(LOI)提高至24.5%,比原涤纶织物提高了7.4%;垂直燃烧测试中的黑色烟雾减少,且损毁长度降低至9.7 cm;经向和纬向断裂强力、纬向断裂伸长率与原涤纶织物相比有所提升,而经向断裂伸长率有所降低;50次水洗后的LOI值为21.2%,仍然明显高于原涤纶织物。

磷酸锆载银涤纶长丝针织物性能研究

为了研究磷酸锆载银涤纶长丝纬编针织物的性能,文章采用8.33 tex/72 f(75 D/72 f)磷酸锆载银涤纶长丝及14.80 tex精梳棉纱进行添纱平纹针织物的编织。参照国家标准对针织物的胀破强度、透湿性能和抗菌性能进行测试,分析磷酸锆载银涤纶长丝在添纱平纹针织物中的应用效果。结果表明,抗菌涤纶长丝作为地纱、棉纱作为面纱的添纱平纹针织物,其透湿性能远高于普通的涤棉织物,对金黄色葡萄球菌和大肠杆菌两个菌种的抗菌率可以达到99.00%。

BCI棉/再生涤混纺针织织物染整工艺

采用活性染料/分散染料对BCI棉/再生涤混纺针织织物进行染色,比较不同染色工艺的得色效果、耐汗渍色牢度、耐皂洗色牢度、耐摩擦色牢度以及耐光色牢度等指标,筛选BCI棉/再生涤混纺针织织物的大生产工艺,从而减少实际大生产时染色带来废水对环境造成的污染,以优化染色质量与成本。实验结果表明:选择方案4#进行印染加工更加节约用水成本、时间成本、用电成本。染色织物耐干摩擦色牢度可达4~5级,耐湿摩擦色牢度可达3~4级,耐皂洗色牢度可达4~5级,耐汗渍色牢度达到4~5级,具有生产可行性。

涤棉针织物练染一浴工艺

针对涤棉针织物染整工艺流程长、耗水耗能高、生产效率低等问题,采用RY236对涤棉针织物进行练染一浴加工,分别讨论了双氧水用量、练染浴pH、保温时间及RY236用量对纯棉针织物前处理效果以及纯涤针织物染色性能的影响。优化后的练染一浴工艺:双氧水用量为8 g/L,pH为5.5,RY236用量为1 g/L,染色温度为130℃,保温30 min。与传统工艺相比,该工艺能够降低生产成本,提高生产效率。

基于废旧涤纶制备水性聚氨酯高分子染料及其性能

以废旧涤纶的醇解产物为原料,得到对苯二甲酸双羟乙酯,并基于此聚合得到水性聚氨酯高分子染料。采用异佛尔酮二异氰酸酯、2,2-双羟甲基丙酸、1,4-丁二醇、1,4-二羟基蒽醌、三乙胺制备水性聚氨酯高分子染料分散液,并考察其黏度、表面张力、热稳定性,以及织物的染色性能和耐摩擦色牢度。结果表明:当1,4-二羟基蒽醌与1,4-丁二醇的质量比为3∶7时,水性聚氨酯高分子染料具有良好的染色性能和较高的耐摩擦色牢度。

羊毛针织物抗起毛起球剂的合成及应用

以聚酯多元醇(XCP-44、XCP-244)、聚醚多元醇(PPG)和2,4-甲苯二异氰酸酯(TDI)为原料,二羟甲基丙酸(DMPA)为亲水扩链剂,制备一种阴离子型水性聚氨酯抗起毛起球剂。通过单因素法优选出乳液合成和织物整理的最佳条件:R值为1.54,DMPA质量分数为5.3%;整理剂质量浓度为60 g/L,整理液pH为6~7,焙烘温度为150℃,焙烘时间为3 min。用红外光谱、粒径分析仪以及热重分析仪对合成产物进行了测试与表征,分别用扫描电镜和智能风格仪测试了整理织物的表面形貌以及手感。结果表明:合成的乳液粒径较小且分布均匀,热稳定性较好;经水性聚氨酯乳液整理织物的抗起毛起球效果达到3.5级,且手感较好。

茜素-Al(Ⅲ)络合物制备及对涤纶针织物的染色

为缩短染色流程,制备茜素-Al(Ⅲ)络合染料,采用紫外-可见和红外光谱对络合物进行表征,分析茜素-Al(Ⅲ)络合染料用于涤纶针织物的染色效果,并与同媒染色工艺对比。结果表明:茜素-Al(Ⅲ)络合染料制备的优化工艺参数为:n(茜素)∶n(Al^(3+))=2∶1,pH值为5.00,反应温度40℃,时间30 min;当染色pH值为3.00时,络合染料染色的黄色谱涤纶织物K/S值增加了81.69%;当染色pH值为9.00时,络合染料染色的红色谱涤纶织物染色K/S值增加了11.72%;茜素-Al(Ⅲ)络合染料染色涤纶织物的耐干摩擦色牢度3级以上,耐湿摩擦色牢度2~3级以上,耐皂洗变色牢度4~5级。

涤纶针织面料去油染色同浴

针对涤纶针织面料去油染色同浴易出现色点、油点的问题,研究了色点的组成及助剂对油剂、染料应用性能的影响。结果表明:布面色点主要由染料和纺织油剂组成,油剂对染料的高温分散性影响很大;非离子乳化去油剂TF-115C对22#白油有很好的乳化性,阴/非离子型匀染剂TF-212KL对含油体系中染料的高温分散性改善最佳,两者配合使用可以降低油剂对纤维的沾附,提升分散染料的移染性,染色均匀性高。

聚酯聚醚和聚氨酯类吸湿排汗助剂在涤氨弹性织物中的应用

采用浸渍-浸轧两步法,先用2%(omf)聚酯聚醚类吸湿排汗助剂在聚酯纤维表面交联,再利用20 g/L聚氨酯类吸湿排汗助剂通过与裸露的聚酯聚醚类整理剂的聚醚嵌段结合形成一层膜,赋予聚酯织物优异的吸湿速干性能(洗前0.38 g/h,30次水洗后为0.33 g/h)和耐洗性,同时还可改善织物的抗起毛起球性能(由3~4级提升至4~5级),且不影响耐皂洗色牢度。

涤/棉混纺针织物高效漂染一浴两步工艺

高效漂染一浴两步工艺代替常规漂染工艺处理涤/棉混纺针织物,具有良好的棉精练及涤染色效果。工艺条件为:TF-213HL 0.5%(omf),分散染料0.5%(omf),浴比1∶10,130℃处理30 min,不排液降温至85℃处理30 min,并加入TF-1291K 1.0%(omf),NaOH 0.6%(omf),H_(2)O_(2)8.0%(omf)。

反光织物设计与性能研究

反光纱线具有良好的反光效果,但存在直径粗、断裂强度低、脆性大、弹性差以及易弯曲断裂的问题。反光纱线是将涤纶长丝缠绕在反光丝表面形成的纱线,文章针对反光纱线在经编成圈时易受到损伤且不易编织的现象,测试了反光纱线的拉伸性能与反光性能,分析影响反光纱线编织的因素,采用两根S+Z捻5.56 tex/24 f(50 D/24 f)涤纶长丝FDY缠绕直径为0.16 mm反光丝表面形成反光纱线在双针床拉舍尔经编机上进行衬纬编织试验,并且阐述反光纱线在双针床拉舍尔经编机上生产的编织工艺。结果表明:反光纱线与针织用纱线交织形成的反光织物会产生反光效应,并且织物的耐磨性和耐洗涤性较好,可满足服装面料舒适性和功能性的要求。

汽车座椅用抗菌涤纶针织物制备及其性能

为解决汽车座椅用涤纶针织物耐久性抗菌问题,以钛酸四丁酯为钛源、硼酸和尿素为掺杂体,采用快速溶胶-凝胶浸渍负载法,通过优化工艺制备出负载硼氮共掺杂纳米二氧化钛(B-N-TiO_(2))抗菌剂的涤纶针织物。在模拟日光照射条件下采用振荡法测试抗菌涤纶针织物对大肠杆菌和金黄色葡萄球菌的抗菌性能。分析抗菌剂的光谱性质和微观形貌,并测试织物的断裂强力、耐磨性能、拒水性能等。结果表明:当浸渍时间为5 min、焙烘温度为120℃、焙烘时间为15 min时,所制抗菌涤纶针织物对大肠杆菌和金黄色葡萄球菌的抑菌率分别为98.4%和94.4%,其主要性能均符合相关标准要求;经20次洗涤后,其纤维表面仍包覆有大量抗菌剂,且抑菌率分别为91.8%和91.3%,抗菌耐久性优于AA级。

单面纬编织物变化孔隙率结构设计与透气导湿性能评价

为优化夏季用轻薄但效应单一的平针结构针织物的热湿调节功能,采用不同粗细的涤纶与氨纶搭配,通过原料细度、织物密度以及孔隙率调节,设计开发9种变化孔隙的单面纬编结构织物。研究原料、织物结构和孔隙对织物透气、吸湿等热湿舒适性能的影响。结果表明,孔隙特征与织物透气导湿性能呈现明显关联。织物体积质量在200~400 kg/m^(3)之间,体积质量越小,透气率越高。在机型原料相同的情况下,局部使用细纱会使织物表面孔隙占比上升,织物组织结构影响平均孔径,孔径最大可以达到105μm。在织物组织结构相同的情况下,织物平均孔径与单向水分传递指数和透湿率均呈现正相关;织物水分蒸发速率与织物体积质量和表面孔隙率也呈现正相关性。模糊综合评价的结果表明,对于单面添纱织物来说,添加氨纶虽然能增强单向导湿性能,但氨纶收缩织物孔隙,增加厚重,使透气效果降低,故在原料不含氨纶且织物表面孔隙率较高的情况下,织物的透气导湿性能最优。

高温高压染色法负载纳米TiO_(2)制备防紫外线涤纶针织物

为提升普通涤纶织物紫外线防护性能,采用高温高压染色法对涤纶织物染色并进行纳米TiO_(2)的负载,讨论了红、黄、蓝3种颜色分散染料和纳米TiO_(2)用量及一浴法和两浴法对涤纶织物紫外线防护系数(UPF值)、K/S值及耐水洗色牢度的影响。结果显示,10%(owf)TiO_(2)负载白色涤纶针织物时,织物UPF值从14.76提升至50+。3种颜色织物防紫外线能力排序依次为蓝色>红色>黄色。分散黄23和纳米TiO_(2)染色负载涤纶针织物时,一浴法染色负载织物UPF值提升至37.13,两浴法染色负载时织物UPF值提升至40以上,两浴法染色负载织物经耐皂洗色牢度测试工艺后,其UPF值仍在40以上,耐水洗色牢度评级均为4级。

热压法在涤纶针织物防紫外整理中的应用研究

使用六偏磷酸钠作为分散剂制得纳米TiO_(2)分散悬浮乳液,将涤纶针织物浸渍在乳液中,使TiO_(2)负载到织物上,通过热压使纳米TiO_(2)固着在织物上。用扫描电子显微镜、能谱分析、防紫外线性能等测试分别对织物整理前后的表面形貌、元素分布、紫外线屏蔽性能及耐水洗性进行表征。结果表明,纳米TiO_(2)粒子成功均匀分散负载在织物上,织物的UPF值从57.43提升到229.14,防紫外线性能显著提升,经过10次水洗后织物的UPF值仍保持在200.00以上,且织物的力学性能、白度、透气性能和手感均没有明显变化。