In the present work, 3D-printed cylindrical discs of dissimilar thermoplastics polyamide (PA6) reinforced with Al powder and acrylonitrile butadiene styrene (ABS) reinforced with Al powder have been successfully joined by friction welding (FW) for structural applications such as joining of pavement sheets and assembly of pipe lines. The melt flow index of PA6 + Al and ABS + Al matrix was maintained in a suitable range by varying the proportions of Al in PA6 and ABS matrix. After fixing proportions of Al powder in PA6 and ABS matrix, these matrix proportions were used for preparation of feed stock filament of fused deposition modelling (FDM) filament by a twin-screw extrusion process. Finally, two FDM filaments of PA6 + Al and ABS + Al were fed into FDM machine independently. The cylindrical discs were printed on commercial FDM (one with filament of PA6 + Al and second with ABS + Al powder). These cylindrical discs of two dissimilar thermoplastic composite materials were processed on FW set-up (on central lathe machine). Finally, under the best parametric conditions of feed, rpm, etc., these polymer matrixes were successfully joined. This study provides a response surface methodology-based mathematical model for enhancing the weldability of dissimilar thermoplastic composites with improved mechanical/morphological properties.
展开▼
机译:在本研究中,3D打印的异种热塑性塑料圆柱形圆盘[用铝粉增强的聚酰胺(PA6)和用铝粉增强的丙烯腈丁二烯苯乙烯(ABS)]已成功通过摩擦焊接(FW)连接,用于结构应用,例如路面板的连接和管道的组装。通过改变PA6和ABS基体中Al的比例,使PA6+Al和ABS+Al基体的熔体流动指数保持在合适的范围内。在PA6和ABS基体中固定Al粉体比例后,利用这些基体配比,采用双螺杆挤出工艺制备熔融沉积成型(FDM)长丝的原料长丝。最后,将PA6+Al和ABS+Al两根FDM灯丝独立送入FDM机中。圆柱形圆盘打印在商业 FDM 上(一个用 PA6 + Al 灯丝,第二个用 ABS + Al 粉末)。这些由两种不同的热塑性复合材料组成的圆柱形圆盘在FW装置上(在中央车床上)进行加工。最后,在进给量、转速等最佳参数条件下,这些聚合物基体成功连接。本研究提供了一种基于响应面方法的数学模型,用于提高异种热塑性复合材料的可焊性,并改善其力学/形貌性能。
展开▼
