Effect of mold on curing deformation of <scp>resin transfer molding</scp>‐made textile composites

Zhang, Ce; Sun, Yeneng; Xu, Jing; Shi, Xiaoping; Zhang, Guoli

doi:10.1002/pc.27648

Polymer Composites

2023

DOI: 10.1002/pc.27648

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Effect of mold on curing deformation of resin transfer molding‐made textile composites

Ce Zhang

Yeneng Sun

Jing Xu

et al.

Abstract: In the process of preparing textile composites by resin transfer molding (RTM) method, both the upper and lower surface of the mold will interact with the composite parts due to the mismatch of thermal expansion coefficient between the mold and the part, resulting in warpage deformation. To address this key technical problem, this article first studied the effect of mold on the warpage deformation of composite material under different fiber volume fractions. Then a mold–part interaction modeling method for RTM… Show more

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2024

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Cited by 3 publications

References 26 publications

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Preparation and characterization of carbon fiber spread tow needled preform and its composite based on novel short yarn needling method

Guo,

Chen,

Ren

et al. 2024

Polymer Composites

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Due to the high fiber volume fraction of carbon fiber spread tow plain weave fabrics, it is difficult for short fibers to be brought into the thickness direction to form needled fiber bundles during the needling process. The interlaminar performance of the carbon fiber spread tow needled preform is weak, and the in‐plane damage is also severe. Responding to this issue, this article proposed a new method for preparing carbon fiber spread tow needled preform based on short yarn needling, which was expected to manufacture high‐performance carbon fiber spread tow needled preform and composite. We conducted experimental research on the preparation and structural characterization of the preform, as well as the Mode I interlaminar mechanical properties and in‐plane tensile properties of composites. The results showed that the fiber volume fraction of the preform significantly increased, reaching to 55.7%–56.1%, which was 25.5%–25.9% higher than that of traditional needled preform. The Mode I interlaminar property of carbon fiber spread tow needled composite reached to 905–4376 J m−2, which was improved by 29.3%–525.1% and 125.8%–1054.6% compared to traditional needled composite and laminated composite, respectively. At the same time, the tensile strength and tensile modulus were also improved by 191.5%–212.2% and 66.2%–78.1% compared to traditional needled composites. The preparation method of carbon fiber spread tow needled preform based on short yarn needling has laid the foundation for the 3D printing molding of dry fiber fabrics and is expected to be applied to high‐quality needling of high thickness and large curvature‐shaped fabric preforms.Highlights A novel method was proposed for preparing high‐performance carbon fiber spread tow needled preform based on short yarn needling. The fiber volume fraction of novel carbon fiber spread tow needled preform significantly increased, reaching to 55.7%–56.1%. The GIc of the novel carbon fiber spread tow needled composite was improved by 29.3%–525.1% compared to the traditional needled composite. The tensile strength and tensile modulus were also improved by 191.5%–212.2% and 66.2%–78.1%, compared to traditional needled composites.

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Preparation and characterization of carbon fiber spread tow needled preform and its composite based on novel short yarn needling method

Guo,

Chen,

Ren

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

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Advances in resin matrix composite fan blades for aircraft engines: A review

Wei,

Zhang,

Liu

et al. 2024

Thin-Walled Structures

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Development and exploitation of shape-generating molding tools made of polymer composite materials in the production of aircraft composite structures

Shevtsov,

Snezhina,

Kamchatny

2024

Science Intensive Technologies in Mechanical Engineering

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Processing technology and technological equipment for the formation of a wear-resistant surface layer by implanting materials based on tungsten carbide (WC), are viewed. The effect of implanted WC powder on the formation of gradient wear-resistant structures in the friction surface of carbon steel formed during the implementation of combined electromechanical processing (WRCEMP) technology, has been studied. Resulting from heat and pressure impact in the zone of plastic deformation, intensive austenization of steel occurs with dissolution of WC powder and subsequent formation of highly dispersed composite structures caused by the decomposition of undercooled tangstem-supersaturated austenite. Combined comparative friction and wear tests were carried out for structural steel 45 with a graded structure of a hardened surface and rather expensive and technologically- difficult to obtain modern wear-resistant coatings and materials. The issue of WRCEMP technology practical application used for the «axis of satellite – satellite» friction pair is viewed. An assessment of the durability increase of the «axis of satellite – satellite» interface during the implementation of the considered processing methods and innovative technology was taken. Recommendations for the use of combined electromechanical processing technology at machine-building enterprises as a highly effective way to ensure and improve the performance of machine parts at the stage of their manufacture are given.

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Effect of mold on curing deformation of resin transfer molding‐made textile composites

Cited by 3 publications

References 26 publications

Preparation and characterization of carbon fiber spread tow needled preform and its composite based on novel short yarn needling method

Preparation and characterization of carbon fiber spread tow needled preform and its composite based on novel short yarn needling method

Advances in resin matrix composite fan blades for aircraft engines: A review

Development and exploitation of shape-generating molding tools made of polymer composite materials in the production of aircraft composite structures

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