Manufacturing, characterization, and macromechanical modeling of short flax/hemp fiber-hybrid reinforced polypropylene

IF 3.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Bilel Miled , Slim Kammoun , Imane Belyamani , Laurent Cauret
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Abstract

The present work focuses on the manufacturing, mechanical characterization, and modeling of hybrid Flax/Hemp/Polypropylene (PP) composites under dry conditions. Geometric parameters of the fibers were measured both before and after the melt processing. The results indicated that the processed fibers, especially the hybrid ones, had a narrowed length distribution with an average fiber length of 0.48 mm for hybrids compared to 0.62 mm for non-hybrids. The hybrid composites were mechanically characterized using basic and loading-unloading tensile tests with various fiber combinations and weight percentages. The study also examined the effect of strain rate and cutting angle on the behaviors of the composites. The results demonstrated the significance of fiber orientation as the primary factor in explaining mechanical variations. The tensile strength and Young's Modulus of FH30 composites (PP + 15 wt% flax + 15 wt% hemp) increased by about 24.1 % and 10.9 %, respectively, when the plates were cut into dumbbell shapes at a 90° angle to the injection molding flow direction, compared to a cut at 0° The study also showed that the tensile strength is directly proportional to the mass fraction of reinforcements, with an increase in tensile strength by 7.9 % for 0° cut angle specimens between FH10 (PP + 5 wt% flax + 5 wt% hemp) and FH30 bio-composites, while the uniform strain is inversely proportional to the mass fraction of reinforcements, evidenced by a reduction in uniform strain of 30 % between FH10 and FH30 samples. Morphological observations revealed the presence of bands indicating the propagation of micro-cracks, as well as debonding or cohesive failure. Finally, a Perzyna-type elasto-viscoplastic constitutive model was applied to accurately predict the overall mechanical response of a hybrid composite material. Specifically, the model successfully captured the tension deformation behavior of hybrid natural short-fiber thermoplastic composites, including the elastic stage, yield stress, and nonlinear hardening.

亚麻/大麻短纤维混合增强聚丙烯的制造、表征和宏观机械建模
本研究的重点是亚麻/大麻/聚丙烯(PP)混合复合材料在干燥条件下的制造、机械特性分析和建模。在熔融加工前后都测量了纤维的几何参数。结果表明,加工后的纤维,尤其是杂交纤维的长度分布较窄,杂交纤维的平均长度为 0.48 毫米,而非杂交纤维的平均长度为 0.62 毫米。混合复合材料的机械性能采用了基本拉伸试验和加载-卸载拉伸试验,并采用了不同的纤维组合和重量百分比。研究还考察了应变率和切削角对复合材料行为的影响。结果表明,纤维取向是解释力学变化的主要因素。与 0° 切割相比,将板材切割成与注塑流动方向成 90° 角的哑铃状时,FH30 复合材料(聚丙烯 + 15 wt% 亚麻 + 15 wt% 大麻)的拉伸强度和杨氏模量分别提高了约 24.1% 和 10.9%。而均匀应变与增强材料的质量分数成反比,FH10 和 FH30 样品的均匀应变降低了 30%。形态学观察显示,存在表明微裂纹扩展的带状现象,以及脱粘或内聚失效。最后,应用 Perzyna 型弹塑性-粘塑性构成模型准确预测了混合复合材料的整体机械响应。具体来说,该模型成功捕捉了混合天然短纤维热塑性复合材料的拉伸变形行为,包括弹性阶段、屈服应力和非线性硬化。
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来源期刊
Forces in mechanics
Forces in mechanics Mechanics of Materials
CiteScore
3.50
自引率
0.00%
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0
审稿时长
52 days
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