纺织学报 ›› 2022, Vol. 43 ›› Issue (06): 70-78.doi: 10.13475/j.fzxb.20210703809

• 纺织工程 • 上一篇    下一篇

基于ABAQUS的涤/棉混纺机织物起球过程有限元仿真

肖琪1(), 王瑞2,3, 张淑洁2,3, 孙红玉4, 王静茹4   

  1. 1.常熟理工学院 纺织服装与设计学院, 江苏 常熟 215500
    2.天津工业大学 纺织科学与工程学院,天津 300387
    3.天津工业大学 先进纺织复合材料教育部重点实验室, 天津 300387
    4.滨州华纺工程技术研究院, 山东 滨州 256600
  • 收稿日期:2021-07-14 修回日期:2021-10-18 出版日期:2022-06-15 发布日期:2022-07-15
  • 作者简介:肖琪(1988—),女,讲师,博士。主要研究方向为纺织品的结构与性能。E-mail: xiaoqi223638@163.com

Finite element simulation of pilling of polyester/cotton woven fabrics using ABAQUS

XIAO Qi1(), WANG Rui2,3, ZHANG Shujie2,3, SUN Hongyu4, WANG Jingru4   

  1. 1. School of Textile Garment and Design, Changshu Institute of Technology, Changshu, Jiangsu 215500, China
    2. School of Textile Science and Engineering, Tiangong University, Tianjin 300387, China
    3. Key Laboratory of Advanced Textile Composites, Ministry of Education, Tiangong University, Tianjin 300387, China
    4. Binzhou Huafang Engineering Technology Research Institute, Binzhou, Shandong 256600, China
  • Received:2021-07-14 Revised:2021-10-18 Published:2022-06-15 Online:2022-07-15

RichHTML

10

PDF (PC)

65

摘要:

为更好地了解涤/棉混纺机织物起毛起球过程,基于对织物起球过程表面毛羽测量得到的毛羽分布特征,借助PYTHON语言建立了织物及其表面毛羽的几何模型,同时利用有限元软件ABAQUS研究了涤/棉混纺机织物表面毛羽的起球过程,分析了涤纶弹性模量对涤/棉混纺机织物起球过程的起球等级、能量吸收形式的影响规律,并将有限元仿真的起球结果和实测起球结果进行对比分析。结果表明:涤纶弹性模量的增加使得涤/棉混纺机织物的起毛起球等级降低;摩擦耗散能是涤/棉混纺机织物起毛起球过程的主要能量吸收形式,织物起毛起球等级的仿真结果与实验结果的差异在7.4%以内,证明有限元仿真的可行性。

关键词: 涤/棉混纺机织物, 起毛起球, 有限元仿真, 纤维弹性模量, 摩擦耗散能

Abstract:

In order to better understand pilling of polyester/cotton woven fabrics, a geometric model of the fabric showing hairiness was established by using PYTHON language with ABAQUS, on the basis of the measured the distribution characteristics of hairiness during pilling. The finite element simulation model for fabric pilling were validated using experimental data, and the differences in pilling grades between the simulated and the experimental results is about 7.4%, which proves the feasibility of finite element simulation. The effects of elastic modulus of polyester fibers on pilling grades and energy absorption form of pilling were analysed. The results indicate that when the elastic modulus of polyester fibers is increased, the pilling grade of polyester/cotton woven fabric is reduced. Friction dissipation energy is the main form of energy absorption during pilling of polyester/cotton woven fabrics.

Key words: polyester/cotton woven fabric, balling and pilling, finite element simulation, fiber elastic modulus, friction dissipation energy

中图分类号: 

  • TS101.9

表1

涤纶的性能参数"

涤纶编号 直径/μm 摩擦因数 弹性模量/GPa
1# 12 0.3 4.14
2# 12 0.3 4.55
3# 12 0.3 5.66

图1

数码成像设备获取的织物表面毛羽和毛球"

图2

粒径分布计算软件测试布面毛羽"

表2

Number of pills on polyester/cotton woven fabrics根"

织物编号 125次 500次 1 000次 2 000次 5 000次 7 000次
01# 0 13 21 28 17 15
02# 0 1 4 4 5 4
03# 0 15 22 41 26 19

图3

不同摩擦次数下织物表面毛羽长度和数量分布"

图4

涤/棉混纺机织物及其表面毛羽的几何模型"

表3

第1阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 628 0 0 0 1

表4

第2阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 628 0 0 1 0

表5

第3阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 628 0 0 0.84 0.54

表6

第4阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 314 0 0 0 1

表7

第5阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 314 0 0 1 0

表8

第6阶段幅值曲线的参数"

幅值曲线
参数		 圆频率/
(rad·s-1)		 开始时
间/s		 初始幅值/
mm		 A B
X方向的取值 628 0 0 0 1
Y方向的取值 314 0 0 0.84 0.54

图5

不同涤纶弹性模量时实际织物的起球图像"

图6

不同涤纶弹性模量时实际织物的起球评级图像"

表9

Pilling grades of actual fabrics with different elastic modulus of polyester fibers级"

序号 起球等级
E=4.14 GPa E=4.55 GPa E=5.66 GPa
1 4 3.5 2
2 3.5 3 2
3 4 3.5 2.5
4 4.5 3 2
5 4 3.5 2
6 4 3 2
7 4.5 3 2.5
8 4 3.5 2
9 4 3.5 2
平均值 4.1 3.3 2.1

图7

不同涤纶弹性模量的涤/棉混纺机织物表面毛羽起球的有限元仿真图像"

图8

不同涤纶弹性模量的涤/棉混纺机织物起球仿真的评级图像"

表10

Pilling grades of simulated fabrics with different elastic modulus of polyester fibers级"

序号 起球等级
E=4.14 GPa E=4.55 GPa E=5.66 GPa
1 3.5 3 2
2 4 3.5 2
3 4.5 3 2
4 4 3 2.5
5 4.5 3.5 2
6 4 3 2
7 4.5 3 2
8 4 3 2
9 4.5 3.5 2
平均值 4.2 3.2 2.1

图9

涤纶弹性模量对织物起球过程产生的能量影响"

图10

涤纶弹性模量对织物起球过程的应变影响"

图11

不同涤纶弹性模量的涤/棉混纺机织物起球仿真的应力云图"

[1] XIAO Q, WANG R, ZHANG S, et al. Prediction of pilling of polyester-cotton blended woven fabric using artificial neural network models[J]. Journal of Engineered Fibers and Fabrics, 2020, 15(3): 1-10.
[2] 肖琪, 王瑞, 孙红玉, 等. 织物起毛起球机制的理论模型研究进展[J]. 纺织学报, 2020, 41(2): 172-178.
XIAO Q, WANG R, SUN H, et al. Research progress on theoretical models of mechanisms of fuzzing and pilling[J]. Journal of Textile Research, 2020, 41(2): 172-178.
[3] WANG R, XIAO Q. Study on pilling performance of polyester-cotton blended woven fabrics[J]. Journal of Engineered Fibers and Fabrics, 2020, 15(2): 1-10.
[4] LIU Z, YANG W, ZHOU X D. Synthesis and application of polysiloxane-modified polyurethane as anti-pilling finishing agent for polyester-cotton fabric[J]. Polymer-Korea, 2020, 44(6): 763-768.
doi: 10.7317/pk.2020.44.6.763
[5] HUANG Z C, CHEN W X. Preparation and characterization of hot melt copolyester (PBTI) ultrafine particles and their effect on the anti-pilling performance of polyester/cotton fabrics[J]. Polymers, 2018, 10(10): 123-140.
doi: 10.3390/polym10020123
[6] REN Y F, FU R R, FANG K J, et al. Clean dyeing of acrylic fabric by sustainable red bacterial pigment based on nano-suspension system[J]. Journal of Cleaner Production, 2021, 281: 253-271.
[7] WAN A, YU W. Effect of wool fiber modified by ecologically acceptable ozone-assisted treatment on the pilling of knit fabrics[J]. Textile Research Journal, 2012, 82(1): 27-36.
doi: 10.1177/0040517511414973
[8] HAJILARI M, ESFANDIARI A H, DABIRYAN H. Investigation of effect of fibers modulus on pilling of acrlic fabrics[J]. Journal of The Textile Institute, 2009, 100(2): 135-140.
doi: 10.1080/00405000701679681
[9] HEARLE J W S, WILKINS A H. Movement of fibers in assemblies[J]. Journal of The Textile Institute, 2006, 97(1): 1-9.
doi: 10.1533/joti.2005.0107
[10] HEARLE J W S, WILKINS A H. Mechanistic modelling of pilling: part I: detailing of mechanisms[J]. Journal of The Textile Institute, 2006, 97(4): 359-368.
doi: 10.1533/joti.2005.0163
[11] HEARLE J W S, WILKINS A H. Mechanistic modelling of pilling: part II: individual-fibre computational model[J]. Journal of The Textile Institute, 2006, 97(4): 369-376.
doi: 10.1533/joti.2005.0164
[12] XU D H, GE M B, ZHANG H L. Numerical solution of a dynamic model of heat and moisture transfer in porous fabric under low temperature[J]. International Journal of Heat and Mass Transfer, 2013, 61: 149-157.
doi: 10.1016/j.ijheatmasstransfer.2013.01.045
[13] XIE J, CHEN X, ZHANG Y, et al. Experimental and numerical investigation of the needling process for quartz fibers[J]. Composites Science and Technology, 2018, 165: 115-123.
doi: 10.1016/j.compscitech.2018.06.009
[14] XIAO Q, WANG R, SUN H Y, et al. Objective evaluation of fabric pilling based on image analysis and deep learning algorithm[J]. International Journal of Clothing Science and Technology, 2021, 33(4): 495-512.
doi: 10.1108/IJCST-02-2020-0024
[15] 肖琪, 王瑞, 陆鑫, 等. 基于布面毛羽长度和毛羽密度的涤/棉混纺机织物起球倾向[J]. 丝绸, 2020, 57(9): 27-33.
XIAO Qi, WANG Rui, LU Xin, et al. Pilling tendency of polyester/cotton blended woven fabric based on fabric hairiness length and hairiness density[J]. Journal of Silk, 2020, 57(9): 27-33.
[1] 牛雪娟, 徐妍慧. 不同流通间隙排布条件下碳纤维束展纤行为研究[J]. 纺织学报, 2022, 43(06): 165-170.
[2] 周慧玲, 朱俐莎, 吴雄英, 丁雪梅. 电雾化处理对羊毛织物抗起毛起球性能的影响[J]. 纺织学报, 2021, 42(10): 120-125.
[3] 陈可, 张娣, 吉宜军, 乐荣庆, 苏旭中. 精梳涤纶条含量对涤纶针织物性能的影响[J]. 纺织学报, 2021, 42(09): 66-69.
[4] 孙亚博, 李立军, 马崇启, 吴兆南, 秦愈. 基于ABAQUS的筒状纬编针织物拉伸力学性能模拟[J]. 纺织学报, 2021, 42(02): 107-112.
[5] 戴宁, 彭来湖, 胡旭东, 崔英, 钟垚森, 王越峰. 纬编针织机织针自由状态下固有频率测试方法[J]. 纺织学报, 2020, 41(11): 150-155.
[6] 肖琪, 王瑞, 孙红玉, 方纾, 李聃阳. 织物起毛起球机制的理论模型研究进展[J]. 纺织学报, 2020, 41(02): 172-178.
[7] 邬淑芳, 张亭亭, HASAN Md Rokibul, 陈益人. 涤纶网络丝仿麻织物的摩擦性能[J]. 纺织学报, 2019, 40(10): 134-140.
[8] 徐成书 同晓妮 蔡再生 陈前维 邢建伟 任燕. 线性聚醚嵌段氨基硅油改性水性聚氨酯抗起毛起球剂的合成及其应用[J]. 纺织学报, 2018, 39(09): 84-89.
[9] 李瑛慧 谢春萍 刘新金. 三原组织织物拉伸力学性能有限元仿真[J]. 纺织学报, 2017, 38(11): 41-47.
[10] 韦玉辉 宁琳 吴雄英 丁雪梅. 家用干衣机滚筒烘干方式对羊毛织物性能的影响[J]. 纺织学报, 2017, 38(07): 69-74.
[11] 王占山 吕利叶 张佳丽 杨育林 张芳芳. 聚四氟乙烯/芳纶破斜纹织物衬垫拉伸性能数值仿真[J]. 纺织学报, 2016, 37(07): 71-76.
[12] 万爱兰 丛洪莲 蒋高明 钟君 王敏 . 包芯色纱性能及其对横编成形提花鞋面织物的影响[J]. 纺织学报, 2015, 36(07): 36-42.
[13] 万爱兰 于伟东 蒋高明. 起毛起球表征技术的研究进展与问题[J]. 纺织学报, 2014, 35(5): 157-0.
[14] 汪涛. 丝胶整理对羊绒针织物抗起毛起球性的影响[J]. 纺织学报, 2011, 32(7): 106-110.
[15] 周圆圆;潘如如;高卫东;刘基宏. 基于标准样照与图像分析的织物起毛起球评等方法[J]. 纺织学报, 2010, 31(10): 29-33.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备14006648号  京公网安备11010502044800号
版权所有 © 2021 《纺织学报》编辑部
地址: 北京市朝阳区延静里中街3号主楼6层《纺织学报》杂志社 邮政编码:100025 
电话:010-65017711,65917740 传真:010-65016539 Email:fangzhixuebao@vip.126.com
本系统由北京玛格泰克科技发展有限公司设计开发