现代制造工程Issue(1):25-31,7.DOI:10.16731/j.cnki.1671-3133.2026.01.003
拉压复合应力状态下的连续碳纤维复合材料3D打印路径规划
3D printing path planning for continuous carbon fiber composites in stress composite state
摘要
Abstract
Continuous carbon fiber composites have high axial strength and modulus and anisotropic characteristics.In order to give full play to the reinforcing effect of fibers in the axial direction on the shaped parts,and combining with the advantages of 3D printing technology that can form arbitrary complex models,the surface layer optimization and path planning method based on stress-oriented was proposed and was carried out for the working conditions under the composite state of tensile and compressive stresses.At the same time,the panned fiber path was optimized to improve the continuity and manufacturability.And the co-extru-sion process was considered to realize the printing of variable-thickness curved surface slices with a three-axis printer.Experi-ments were carried out to verify the 3D printing performance enhancement.Compared with the traditional path planning methods,the proposed method has a significant enhancement effect with a minimum increase of 26.89%and 51.45%in maximum load and compressive stiffness,respectively.关键词
3D打印/连续纤维/应力适应/路径规划/曲面打印/共挤出打印Key words
3D printing/continuous fiber/stress-oriented/path planning/surface printing/co-extrusion printing分类
通用工业技术引用本文复制引用
李志杰,邓犇,彭芳瑜,闫澳迪,易家乐,沈金国,唐小卫..拉压复合应力状态下的连续碳纤维复合材料3D打印路径规划[J].现代制造工程,2026,(1):25-31,7.基金项目
国家自然科学基金项目(52188102) (52188102)
