Evaluation of the strain gradient effect on compressive failure of CRFP composites

IF 5.3 Q2 MATERIALS SCIENCE, COMPOSITES

Composites Part C Open Access Pub Date : 2025-06-18 DOI:10.1016/j.jcomc.2025.100621

Tobias Bianchi , Jawad Naciri , Joël Serra , Christophe Bouvet , Léon Ratsifandriahana

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Abstract

A pin-ended buckling test inspired by Wisnom [1] was developed to evaluate the effect of strain gradient on the compressive failure strain of composite laminates. Tests were conducted on unidirectional (UD) carbon/epoxy AS4/8552, and strain measurements were obtained using digital image correlation. Various cross-ply stacking sequences, [(0/90)₂]_S, [(0/90)₄]_S, [(0/90)₈]_S, were studied and most specimens failed on the tension side due to the high compressive strength facilitated by the strain gradient, while the tensile failure strain remained unaffected by the strain gradient. To induce failure on the compression side, a novel method was developed by manufacturing bi-material specimens with an aluminum 2024 ply added to the tension side. This modification led to all bi-material specimens failing on the compression side. The results showed a Nnar increase in compressive failure strain as a function of the strain gradient. Furthermore, values reaching up to -33,000 microstrains were obtained for the thinner specimens, which is >2.5 times the compressive failure strain of -12,500 microstrains announced by the manufacturer. This behavior is new compared to other published results obtained on similarly tested materials that demonstrated a linear trend.

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应变梯度对CRFP复合材料压缩破坏影响的评价

为了研究应变梯度对复合材料层合板压缩破坏应变的影响，建立了受Wisnom[1]启发的销端屈曲试验。对单向（UD）碳/环氧树脂AS4/8552进行了试验，并利用数字图像相关技术获得了应变测量值。研究了[(0/90)2]S、[（0/90）₄]S、[（0/90）₈]S等不同的交叉层序，结果表明，由于应变梯度带来的高抗压强度，大多数试样在拉伸侧失效，而拉伸破坏应变不受应变梯度的影响。为了诱导压缩侧的破坏，开发了一种新的方法，即在拉伸侧添加铝2024层的双材料试样。这种修改导致所有双材料试样在压缩侧失效。结果表明，压缩破坏应变随应变梯度呈Nnar增长。此外，对于较薄的试样，可获得高达-33,000微应变的值，这是制造商宣布的-12,500微应变的压缩破坏应变的>；2.5倍。与其他发表的在类似测试材料上获得的显示线性趋势的结果相比，这种行为是新的。

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