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三角形编织工艺数字化建模方法

Digital modeling method for triangular braiding process
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摘要 三维旋转式编织工艺按角轮缺口数分为三角形、四角形和六角形编织工艺,其中三角形编织工艺研究较少。为探索基于三角形编织工艺的预制体结构,基于Python语言和CATIA开发编织工艺软件,获得预制体几何结构。角轮和交换轮交替旋转,驱动携纱器在底盘中运动,使纱线相互交织形成预制体。对角轮、交换轮、携纱器的编号和运动状态进行数字化编码,研究不同旋转状态下携纱器的交换规律。携纱器轨迹与编织节点高度共同确定了织物空间拓扑结构,采用三次B-spline曲线对纱线空间轨迹进行拟合,建立预制体的参数化几何模型。结果表明:采用三角形编织工艺获得的预制体结构紧凑,织物几何模型与试验样件一致性较好,验证了建模方法的精度。 Objective The carrier track for the traditional track-and-column three-dimensional(3-D)braiding is fixed,resulting in low flexibility.In quadrangular and hexagonal 3-D braiding machines,the area ratio of the yarn carrier to the braiding plate is relatively small,resulting in low utilization of the braiding plate area.The triangle braiding process has the highest chassis utilization rate and excellent mechanical properties,and makes it significant research topic.To further study the braiding technology and algorithm of the triangular 3-D braiding,it is necessary to digitally model the braiding components and movements and to establish geometrical models of meso-structure of fabrics,which can provide a guidance for the development of new braiding techniques.Method In the triangular braiding process,the horn-gears and the switch-gears drove the carriers while they were alternately rotating,resulting in the yarns interlacement.Horn-gears,switches,and carriers were simulated to study the movement rules of carriers.The path of carriers and the height of the braiding node jointly determined the spatial topological structure of the fabric.The cubic B-spline curve was used to optimize the spatial paths of the yarns,and the Python script was written to drive CATIA to establish the meso-structure of preforms.Furthermore,the visual interface of the fabric structure was developed with PyQt5.Results The machine bed of the triangular braiding device mainly consists of three-wing gears and yarn carriers.These gears were independently driven by stepper motors,thus providing high flexibility.The gears were divided into two groups:horn-gears and switch-gears,with rotation angles being multiples of 120°and not exceeding 360°.The movements of the horn-gears,switch-gears,and yarn carriers were progrmmed,relating the movement of ths yarn carriers to that of horn-gears.The movement of the yarn carrier was classified into two scenarios:tracking the motion of the horn-gear and tracking the motion of the switch-gear,and corresponding formulas for position exchange were derived for each case.The projected curve of the spatial trajectory of the yarn conforms to the proportion relationship with the yarn carrier's motion path.By adjusting the scaling factor,the yarn arrangement kept compact and without penetration.Combined with the lifting height,the 3-D coordinates of the yarn trajectory points were obtained.The obtained yarn trajectory was interpolated and fitted using cubic B-spline curves,driving CATIA to establish a detailed meso-structure.A fabric structure simulation software was developed with the PyQt5 library to interactively set braiding process parameters and the initial layout of horn-gears,output spatial trajectories of all yarns,and generate fabric geometric structures.When the rotation directions of horn-gears and switch-gears were the same and their angles were both 120°,the yarns would not able to intertwine,thus unable to form a prefabricated structure.When the rotation directions of horn-gears and switch-gears were opposite,and their angles were both 120°,the yarn projection trajectories would form triangles,with the three sets of trajectories interweaving,resulting in a uniform and compact prefabricated structure.The braiding experiments were conducted on the rectangular cross-section fabrics,demonstrating good consistency between the theoretical model and experimental specimens.This validates the accuracy of the process modeling method proposed in this paper.Conclusion The triangular 3-D braiding process could make yarns interlace with each other to form a braiding compact fabrics.The proposed modeling algorithm could simulate the meso-structure of fabrics with different braiding angles,and the fabric model was consistent with the experimental fabric.The developed fabric simulation software could visually display fabric models under different parameter combinations.In the future,the multiple structures of braiding fabrics could be obtained based on the triangular 3-D braiding process,thereby providing guidance for studying their mechanical properties.
作者 王辉 周伟 陈一哲 龙晚昕 王金伙 WANG Hui;ZHOU Wei;CHEN Yizhe;LONG Wanxin;WANG Jinhuo(Hubei Key Laboratory of Advanced Technology for Automotive Components,Wuhan University of Technology,Wuhan,Hubei 430070,China;Hubei Longzhong Laboratory,Xiangyang,Hubei 441000,China;College of Automotive Engineering,Wuhan University of Technology,Wuhan,Hubei 430070,China;Jiangsu Xinyang New Material Co.,Ltd.,Yangzhou,Jiangsu 225000,China;Fujian Key Laboratory of Functional Materials and Applications,Ximen University of Technology,Xiamen,Fujian 361024,China)
出处 《纺织学报》 EI CAS CSCD 北大核心 2024年第6期75-81,共7页 Journal of Textile Research
基金 国家自然科学基金项目(51775398,52175360) 湖北省重点研发计划项目(2022BAA073) 青年人才托举工程项目(2021QNRC001) 湖北省科技人才服务企业项目(2023DJC055) 111计划(B17034) 广西科技重大专项(桂科AA23062063) 襄阳高新区科技计划项目(202203号) 武汉理工大学襄阳技术转移中心产业化项目(WXCJ-20220028) 福建省功能材料及应用重点实验室开放基金项目(fma2023002)。
关键词 三维编织 预制体 编织算法 细观结构模型 工艺软件 3-D braiding braiding preform braiding algorithm meso-structure model process software
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