Direct printing of carbon fiber reinforced thermoplastic plastic on metal sheets via fused deposition modeling assisted by laser texturing

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
Shijia Wang, Yifan Liu, Chunlin Qin, Jianhui Su, Yunhua Deng, Wei Song, Bo Chen, Xiaoguo Song, Caiwang Tan
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Abstract

Printing polymers on metal surfaces using fused deposition modeling could enhance the versatility of hybrid structures. However, the differences between metals and plastics prevented the effective spreading of molten plastic on metal surfaces, challenging reliable plastic printing on metal substrates. This study employed a nanosecond laser to fabricate laser‐textured grids of varying widths (0.2–0.5 mm) on a 6061 aluminum alloy (6061Al) surface. Carbon fiber reinforced thermoplastic plastic (CFRTP) was printed on 6061Al surface in different printing directions (0°, 45°, and 90°). The influence of laser texturing and printing direction on joint performance was evaluated. The findings indicated the laser‐texturing increased 6061Al surface roughness, enhancing wettability of CFRTP on 6061Al surface. The 45° printing direction provided the best wetting, resulting in a tensile‐shear force of 1631.7 N, 218% higher than at 90°. Optimal performance was achieved with a 0.5‐mm texture width, increasing tensile‐shear force by 180% compared to 0.2 mm and 67% compared to 0.6 mm. Interfacial stress concentration decreased and then increased with the increase of laser‐textured width and the 45° printing direction provided the longest print path and best resin spreading. This research presented a novel approach to metal‐polymer joining, with significant implications for advanced lightweight hybrid structures.Highlights Printing carbon fiber reinforced thermoplastic plastic (CFRTP) on 6061 aluminum alloy (6061Al) surface was achieved by fused deposition modeling via laser texturing. The print direction affected the wetting and spreading space of the molten resin. Pinning effect of printed CFRTP/6061Al by laser texturing was studied. The spreading and wetting of resin determined the mechanical properties.

Abstract Image

通过激光纹理辅助熔融沉积建模,在金属板上直接打印碳纤维增强热塑性塑料
利用熔融沉积建模技术在金属表面打印聚合物可提高混合结构的多功能性。然而,金属和塑料之间的差异阻碍了熔融塑料在金属表面的有效铺展,给在金属基底上进行可靠的塑料打印带来了挑战。本研究采用纳秒激光在 6061 铝合金(6061Al)表面制造出不同宽度(0.2-0.5 毫米)的激光纹理网格。在 6061Al 表面以不同的印刷方向(0°、45° 和 90°)印刷碳纤维增强热塑性塑料(CFRTP)。评估了激光纹理和印刷方向对接头性能的影响。结果表明,激光纹理增加了 6061Al 表面的粗糙度,提高了 CFRTP 在 6061Al 表面的润湿性。45° 印刷方向的润湿性最好,可产生 1631.7 牛顿的拉伸剪切力,比 90° 印刷方向的拉伸剪切力高 218%。纹理宽度为 0.5 毫米时性能最佳,拉伸剪切力比 0.2 毫米时提高了 180%,比 0.6 毫米时提高了 67%。随着激光纹理宽度的增加,界面应力集中先减小后增大,45° 打印方向的打印路径最长,树脂铺展效果最好。这项研究为金属-聚合物连接提供了一种新方法,对先进的轻质混合结构具有重要意义。 亮点 通过激光纹理熔融沉积建模技术在 6061 铝合金(6061Al)表面打印碳纤维增强热塑性塑料(CFRTP)。打印方向会影响熔融树脂的润湿和铺展空间。研究了激光纹理印刷 CFRTP/6061Al 的针刺效应。树脂的铺展和润湿决定了机械性能。
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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