防紫外吸水导湿功能性织物的开发
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摘要
以Coolmax纤维和竹原纤维的混纺纱、防紫外涤纶纱为原料,以纤维导湿的基本理论、织物热舒适理论为理论依据,设计开发具有吸水导湿和防紫外功能的多层接结、分层角联锁和分层正交3种结构的3层织物,并对这3种织物的基本性能、吸水导湿性能及防紫外性能进行测试分析。结果表明:开发的3种织物都可达到较优异的吸水导湿及防紫外效果,并优选出分层正交结构为综合性能最佳的织物结构。
Three-layer fabrics of three structures of multi-layer binding, layered angle-interlock and layered orthogonal with functions of water absorption, moisture conductivity, and UV protection were designed and developed with blended yarn and UV-protective polyester yarn made from Coolmax fiber and bamboo fiber according to the basic theory and the theory of thermal comfort of fabric, and the basic performance, water absorption and moisture conductivity, and UV protection properties of the three types of fabrics were tested and analyzed. The results show that the three types of fabrics all have good UV protection, water absorption and moisture conductivity properties, and the one of layered orthogonal structure is the best fabric construction with the best combination property.
Three-layer fabrics of three structures of multi-layer binding, layered angle-interlock and layered orthogonal with functions of water absorption, moisture conductivity, and UV protection were designed and developed with blended yarn and UV-protective polyester yarn made from Coolmax fiber and bamboo fiber according to the basic theory and the theory of thermal comfort of fabric, and the basic performance, water absorption and moisture conductivity, and UV protection properties of the three types of fabrics were tested and analyzed. The results show that the three types of fabrics all have good UV protection, water absorption and moisture conductivity properties, and the one of layered orthogonal structure is the best fabric construction with the best combination property.
引文
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[6] 梁静洁,张洪亭,李德义.三维立体织物在尿不湿中应用的初步研究[J].山东纺织经济,2013(3):58-60.
[7] 程隆棣,俞建勇,翟涵,等.功能性涤纶纤维及其产品的吸湿导湿性能[J].棉纺织技术,2003,31(9):36-38.
[8] 王其,冯勋伟.织物差动毛细效应模型及应用[J].东华大学学报,2001,27(3):54-57.
[9] 黄河柳,沈兰萍,张慧敏.组织结构对三维机织物的吸水导湿性能影响[J].合成纤维,2015,44(10):43-45.
[10] 李全明,王浩.防紫外线织物的研究[J].高科技纤维与应用,2002(3):19-21.
[11] 徐英莲,许红燕.纺织品的紫外线防护性能研究[J].丝绸,2002(4):14-15.
[2] 潘菊芳,廉志军,井连英,等.纤维组合及组织结构对织物吸湿快干性能影响[J].棉纺织技术,2004,32(11):5-8.
[3] 孙玉钗,刘智.服用纺织品接触热舒适性及其评价[J].针织工业,2010(9):22-23.
[4] 庄勤亮.服装系统中液态水在不同织物间的传导机理[J].东华大学学报(自然科学版),2002(4):93-97.
[5] CHEN X G. Mathematical modelling of 3D woven fabrics for CAD/CAM software[J]. Textile Research Journal, 2011,81(1):42-50.
[6] 梁静洁,张洪亭,李德义.三维立体织物在尿不湿中应用的初步研究[J].山东纺织经济,2013(3):58-60.
[7] 程隆棣,俞建勇,翟涵,等.功能性涤纶纤维及其产品的吸湿导湿性能[J].棉纺织技术,2003,31(9):36-38.
[8] 王其,冯勋伟.织物差动毛细效应模型及应用[J].东华大学学报,2001,27(3):54-57.
[9] 黄河柳,沈兰萍,张慧敏.组织结构对三维机织物的吸水导湿性能影响[J].合成纤维,2015,44(10):43-45.
[10] 李全明,王浩.防紫外线织物的研究[J].高科技纤维与应用,2002(3):19-21.
[11] 徐英莲,许红燕.纺织品的紫外线防护性能研究[J].丝绸,2002(4):14-15.
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