现代纺织技术 ›› 2024, Vol. 32 ›› Issue (8): 100-107.

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拉毛针织面料热传递性能的有限元仿真

  

  1. 1.东华大学,a.纺织学院;b.纺织面料技术教育部重点实验室,上海 201600
  • 出版日期:2024-08-10 网络出版日期:2024-09-02

Finite element simulation of heat transfer properties of brushed knitted fabrics

  1. 1a. Donghua University; 1b.Key Laboratory of Textile Science & Technology, Ministry of Education, College of Textiles, Shanghai 201600, China
  • Published:2024-08-10 Online:2024-09-02

摘要: 为探究拉毛针织面料的毛羽对面料热传递性能的影响规律,提出了一种预测拉毛针织面料热传递性能的方法,建立了针织线圈-毛羽层模型,在此基础上对拉毛针织面料的热传递性能进行有限元仿真分析,并通过实验验证模型的有效性。首先对实验面料进行测量,得到织物的几何结构参数,利用SolidWorks专业建模软件建立织物的针织线圈结构,利用ANSYS DesignModeler建立织物的毛羽层;然后借助有限元分析软件ANSYS Fluent,根据模拟环境设置边界条件,进行迭代运算,得到该模型的温度分布云图;最后将仿真模拟的结果与实验测试结果进行对比,对模型的有效性进行验证。研究结果表明:拉毛针织面料的模拟热阻值与实验热阻值相关系数接近0.993,最大差异小于17.7%,表明该有限元模型具有一定的可行性;拉毛针织面料的表面毛羽密度越高,织物的热阻值越大,但是毛羽密度达到一定范围后,织物热阻值发生较小变化。 

关键词: 热传递, 毛羽, 拉毛针织面料, 有限元仿真, 线圈模型

Abstract: The surface hairiness of raised yarn knitted fabrics can not only affect the appearance style and fashion sense of the fabric, but also affect the heat transfer performance of the fabric. Therefore, relevant fabric manufacturers have designed and developed knitted fabrics with different degrees of raising yarn to meet the different fashion and functional needs of consumers. However, there is currently a lack of sufficient theoretical basis to elaborate on the relationship between hairiness and the heat transfer performance of raised yarn knitted fabrics. At the same time, traditional experimental testing methods have the disadvantages of being time-consuming, laborious, and requiring a large number of samples, which is difficult to fully and accurately explain this relationship. Therefore, it is necessary to use new methods to study the heat transfer performance of hairiness and raised yarn knitted fabrics, in order to guide the design and development of raised yarn knitted fabrics.
To explore the influence of hairiness on the heat transfer performance of raised yarn knitted fabrics, we propose a method to predict the heat transfer performance of raised yarn knitted fabrics. A knitted loop-hairiness layer model is established, and based on this, finite element simulation analysis is carried out on the heat transfer performance of raised yarn knitted fabrics. The effectiveness of the model is verified through experimental tests. Firstly, we measured four knitted fabrics with different degrees of raising yarn to obtain the geometric structural parameters of the fabrics. In SolidWorks professional modeling software, the knitted loop structure of the fabric was established based on Pierce's two-dimensional loop model theory. On the basis of this structure, the hairiness layer of the fabric was established using ANSYS DesignModeler. Then, we meshed the models of the four fabrics, and used finite element analysis software ANSYS Fluent to set boundary conditions according to the simulation environment, and performed iterative calculations to obtain the temperature distribution cloud images of the four fabric models. Finally, we tested the knitted fabrics with different degrees of raising yarn through experiments, and compared the simulation results with the experimental test results to verify the effectiveness of the model.
The research results show that the correlation coefficient between the simulated thermal resistance value and the experimental thermal resistance value of the raised yarn knitted fabric is close to 0.993, and the maximum difference is less than 17.7%, indicating that the finite element model has certain feasibility. The higher the surface hairiness density of the raised yarn knitted fabric, the greater the thermal resistance of the fabric. However, when the hairiness density reaches a certain range, the thermal resistance of the fabric changes slightly.

Key words: heat transfer, hair, brushed knitted fabrics, finite element simulation, the loop model

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