High strength glass fiber / PEEK prepreg using slurry processing for structural application

Functional Composite Materials Pub Date : 2025-08-13 DOI:10.1186/s42252-025-00071-z

Ravi Prakash, Dibyendu Sekhar Bag, Pralay Maiti

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Abstract

The glass fiber / polyether ether ketone (GF / PEEK) prepregs were successfully prepared using both conventional hot melt (G-PEEK-M) and proposed slurry processing (G-PEEK-S) methods. The mechanical responses of the GF / PEEK prepreg were significantly improved compared to pure PEEK. The tensile strength and modulus of G-PEEK-S has increased by 71% and 83%, respectively, as compared to pure PEEK. Cross-sectional (edge view) scanning electron microscope (SEM) images clearly show that the PEEK polymer has impregnated the woven glass fibers, forming a strong interpenetrating network structure in the G-PEEK-S prepreg, which is categorically absent in G-PEEK-M. UV-vis and FTIR spectroscopy were employed to estimate the chemical interaction between glass fiber and PEEK polymer, and the XRD measurements was used to analysed the microstructural changes after the incorporation of the glass fiber in polymer matrix. The glass transition temperature (T_g), measured using dynamic mechanical analysis (DMA) by assessing the material’s response to an oscillatory force across a range of temperatures, has increased to 157 °C in G-PEEK-S, significantly higher than the T_g of pure PEEK (135 °C). The storage (Gʹ) and loss modulus (Gʺ) of the G-PEEK-S prepregs are 2020 MPa and 57.5 MPa, respectively, showing a 137% rise in Gʹ and a ⁓218% increase in Gʺ as compared to pure PEEK (Gʹ = 854 MPa, Gʺ = 18.1 MPa) at the same temperature (30 °C). Rheological analysis involves in the measurements of flow and deformation characteristics of materials under various conditions, such as different shear rates, temperatures, times and frequencies. The viscosities of PEEK, G-PEEK-M, and G-PEEK-S are found to be 5.1 × 10³, 19.6 × 10³, and 30.4 × 10³ Pa.s, respectively, showing no significant change in viscosity for GF/PEEK prepregs over time, while a gradual reduction was observed in pure PEEK.

Graphical abstract

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高强度玻璃纤维/ PEEK预浸料采用浆料加工用于结构应用

采用传统的热熔（G-PEEK-M）和提出的浆料处理（G-PEEK-S）方法成功制备了玻璃纤维/聚醚醚酮（GF / PEEK）预浸料。与纯PEEK相比，GF / PEEK预浸料的力学响应得到了显著改善。与纯PEEK相比，G-PEEK-S的拉伸强度和模量分别提高了71%和83%。扫描电镜（SEM）的横截面（边缘视图）图像清楚地显示，PEEK聚合物浸渍了编织玻璃纤维，在G-PEEK-S预浸料中形成了强互穿的网络结构，而在G-PEEK-M预浸料中则完全没有这种结构。采用UV-vis和FTIR光谱分析了玻璃纤维与PEEK聚合物的化学相互作用，并用XRD测量分析了玻璃纤维掺入聚合物基体后的微观结构变化。通过动态力学分析（DMA），通过评估材料在一定温度范围内对振荡力的响应来测量玻璃化转变温度（Tg）， G-PEEK-S的玻璃化转变温度（Tg）增加到157°C，明显高于纯PEEK的Tg（135°C）。G-PEEK- s预浸料的存储量（G′）和损耗模量（G′）分别为2020 MPa和57.5 MPa，在相同温度（30℃）下，与纯PEEK （G′= 854 MPa, G′= 18.1 MPa）相比，G′增加了137%，G′增加了⁓218%。流变分析是测量材料在各种条件下的流动和变形特性，如不同的剪切速率、温度、时间和频率。PEEK、G-PEEK-M和G-PEEK-S的粘度分别为5.1 × 10³、19.6 × 10³和30.4 × 10³Pa。s，分别显示GF/PEEK预浸料的粘度随时间没有显著变化，而纯PEEK预浸料的粘度逐渐降低。图形抽象

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Functional Composite Materials

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