Spring-In Prediction of CFRP Part Using Coupled Analysis of Forming and Cooling Processes in Stamping

Ryu, Jae-Chang; Lee, Chan-Joo; Jang, Jin-Seok; Ko, Dae-Cheol

doi:10.3390/ma17051115

Materials

2024

DOI: 10.3390/ma17051115

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Spring-In Prediction of CFRP Part Using Coupled Analysis of Forming and Cooling Processes in Stamping

Jae-Chang Ryu,

Chan-Joo Lee,

Jin-Seok Jang

et al.

Abstract: The spring-in phenomenon of the composite parts can affect the assembly process. This study aims to predict the spring-in phenomenon of a carbon fiber reinforced plastic (CFRP) part. Here, we predict the spring-in of the CFRP part using a coupled analysis of the forming and cooling processes during the stamping process. First, a simulation of the entire forming process, such as the transfer of the composite laminate, gravity analysis, and forming was performed to obtain the temperature distribution of the CFRP… Show more

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Tensile and bending properties of sandwich films of carbon fiber reinforced thermoplastics‐polypropylene sheet processed by a simple hot‐press method

Xu,

Chu,

Rumon

et al. 2024

SPE Polymers

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To develop a material with strong impact resistance, bending direction and in‐plane direction, the tensile and bending properties of sandwich films obtained by placing and re‐pressing a compression‐molded polypropylene sheet between two sheets of carbon‐fiber‐reinforced thermoplastics (CFRTPs) were evaluated. Three types of CFRTP were investigated, and thermoplastic nylon 66, polyurethane, and polyphenylene sulfite were used as the resin base materials to wrap the carbon fiber. Regarding the tensile properties of the sandwich films, the Young's modulus and maximum stress values were lower compared with those of the CFRTP sheets, regardless of the resin base material. However, improvements in elongation properties of 97%, 109%, and 156%, respectively were found, transforming the film into a softer and stronger film. Regarding the bending properties of the sandwich films, the Young's modulus and maximum stress values were higher compared with those of the CFRTP sheet. To examine the influence of the number of layers, the five‐layer sheet, in which the sandwich film was placed in two CFRTP sheets, exhibited inferior elongation properties to the three‐layer sheet during the tensile test. However, the results of the bending test found a significant improvement in Young's modulus of approximately 2.5 times and final strength of approximately three times. We anticipate that this material could be applicable to components requiring specific mechanical properties in both bending and in‐plane directions in future applications.Highlights CFRTP sandwich sheets were fabricated using a simple hot‐press method. The sandwich sheet showed improved mechanical properties in the in‐plane directions. Both the tensile modulus and the bending modulus have reached the GPa‐order. The sandwich film in question had particularly excellent bending properties. The sandwich film showed dependence on the number of layers. In‐plane elasticity of the films was evaluated using a falling ball test.

show abstract

Tensile and bending properties of sandwich films of carbon fiber reinforced thermoplastics‐polypropylene sheet processed by a simple hot‐press method

Xu,

Chu,

Rumon

et al. 2024

SPE Polymers

View full text Add to dashboard Cite

show abstract

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Spring-In Prediction of CFRP Part Using Coupled Analysis of Forming and Cooling Processes in Stamping

Cited by 1 publication

References 18 publications

Tensile and bending properties of sandwich films of carbon fiber reinforced thermoplastics‐polypropylene sheet processed by a simple hot‐press method

Tensile and bending properties of sandwich films of carbon fiber reinforced thermoplastics‐polypropylene sheet processed by a simple hot‐press method

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