Formability of CFRTP prepreg considering heat transfer

Carbon-fiber-reinforced thermoplastic (CFRTP) laminate undergoes large deformations and slip between each layer during the prepreg compression forming (PCF) process. Particularly, the formability of CFRTPs varies for each layer as a result of the temperature difference during heat transfer between t...

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Published in	International Journal of Precision Engineering and Manufacturing-Green Technology, 4(2) Vol. 4; no. 2; pp. 161 - 168
Main Authors	Lee, Jeong-Min, Kim, Byung-Min, Min, Byeong-Jin, Park, Joon-Hong, Ko, Dae-Cheol
Format	Journal Article
Language	English
Published	Seoul Korean Society for Precision Engineering 01.04.2017 Springer Nature B.V 한국정밀공학회
Subjects	Carbon fiber reinforced plastics Computer simulation Defects Deformation mechanisms Energy Efficiency Engineering Fiber reinforced polymers Finite element method Formability Forming Heat transfer Heat transfer coefficients Industrial and Production Engineering Regular Paper Reliability analysis Sustainable Development Temperature Temperature dependence Temperature effects Temperature gradients 기계공학 Inverse analysis Bias extension test Prepreg compression forming Carbon-fiber-reinforced thermoplastic Thermal shear behaviors Hemispherical punch drawing test
Online Access	Get full text
ISSN	2288-6206 2198-0810
DOI	10.1007/s40684-017-0020-3

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Abstract	Carbon-fiber-reinforced thermoplastic (CFRTP) laminate undergoes large deformations and slip between each layer during the prepreg compression forming (PCF) process. Particularly, the formability of CFRTPs varies for each layer as a result of the temperature difference during heat transfer between tool and laminate because of the viscosity of resin. These behaviors affect the final product quality and may create related defects such as wrinkling, and delamination. The objective of this study is to predict the defects by using the finite element method (FEM) considering the heat transfer according to the forming temperature. The bias extension were performed to measure the shrar properties (which are dependent on temperature) at 150°C, 170°C, and 190°C. In addition, the heat transfer coefficient between tool and laminate was measured using the inverse analysis method. The effect of tool temperature on formability of CFRTP prepreg was investigated by FE analysis of the hemispherical punch drawing test. To verify the reliability of the FE analysis, hemispherical punch drawing experiments were performed under the same conditions as those of the FE analysis. The deformed shear angle of CFRTP specimens in the experiment were compared with simulation results. Finally, the temperatures were evaluated to investigate the effects of temperature variation caused by heat transfer.
AbstractList	Carbon-fiber-reinforced thermoplastic (CFRTP) laminate undergoes large deformations and slip between each layer during the prepreg compression forming (PCF) process. Particularly, the formability of CFRTPs varies for each layer as a result of the temperature difference during heat transfer between tool and laminate because of the viscosity of resin. These behaviors affect the final product quality and may create related defects such as wrinkling, and delamination. The objective of this study is to predict the defects by using the finite element method (FEM) considering the heat transfer according to the forming temperature. The bias extension were performed to measure the shrar properties (which are dependent on temperature) at 150°C, 170°C, and 190°C. In addition, the heat transfer coefficient between tool and laminate was measured using the inverse analysis method. The effect of tool temperature on formability of CFRTP prepreg was investigated by FE analysis of the hemispherical punch drawing test. To verify the reliability of the FE analysis, hemispherical punch drawing experiments were performed under the same conditions as those of the FE analysis. The deformed shear angle of CFRTP specimens in the experiment were compared with simulation results. Finally, the temperatures were evaluated to investigate the effects of temperature variation caused by heat transfer. Carbon-fiber-reinforced thermoplastic (CFRTP) laminate undergoes large deformations and slip between each layer during the prepreg compression forming (PCF) process. Particularly, the formability of CFRTPs varies for each layer as a result of the temperature difference during heat transfer between tool and laminate because of the viscosity of resin. These behaviors affect the final product quality and may create related defects such as wrinkling, and delamination. The objective of this study is to predict the defects by using the finite element method (FEM) considering the heat transfer according to the forming temperature. The bias extension were performed to measure the shrar properties (which are dependent on temperature) at 150oC, 170oC, and 190oC. In addition, the heat transfer coefficient between tool and laminate was measured using the inverse analysis method. The effect of tool temperature on formability of CFRTP prepreg was investigated by FE analysis of the hemispherical punch drawing test. To verify the reliability of the FE analysis, hemispherical punch drawing experiments were performed under the same conditions as those of the FE analysis. The deformed shear angle of CFRTP specimens in the experiment were compared with simulation results. Finally, the temperatures were evaluated to investigate the effects of temperature variation caused by heat transfer. KCI Citation Count: 1
Author	Min, Byeong-Jin Kim, Byung-Min Park, Joon-Hong Ko, Dae-Cheol Lee, Jeong-Min
Author_xml	– sequence: 1 givenname: Jeong-Min surname: Lee fullname: Lee, Jeong-Min organization: Precision Manufacturing Systems Division, Pusan National University – sequence: 2 givenname: Byung-Min surname: Kim fullname: Kim, Byung-Min organization: Precision Manufacturing Systems Division, Pusan National University – sequence: 3 givenname: Byeong-Jin surname: Min fullname: Min, Byeong-Jin organization: Graduate School of Convergence Science, Pusan National University – sequence: 4 givenname: Joon-Hong surname: Park fullname: Park, Joon-Hong organization: Department of Mechanical Engineering, Dong-A University – sequence: 5 givenname: Dae-Cheol surname: Ko fullname: Ko, Dae-Cheol email: dcko@pusan.ac.kr organization: Graduate School of Convergence Science, Pusan National University
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Keywords	Inverse analysis Bias extension test Prepreg compression forming Carbon-fiber-reinforced thermoplastic Thermal shear behaviors Hemispherical punch drawing test
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SubjectTerms	Carbon fiber reinforced plastics Computer simulation Defects Deformation mechanisms Energy Efficiency Engineering Fiber reinforced polymers Finite element method Formability Forming Heat transfer Heat transfer coefficients Industrial and Production Engineering Regular Paper Reliability analysis Sustainable Development Temperature Temperature dependence Temperature effects Temperature gradients 기계공학
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Title	Formability of CFRTP prepreg considering heat transfer
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