The need for lightweight yet strong materials is being demanded in all industries. Carbon fiber-reinforced plastic is a material with increased strength by attaching carbon fiber to plastic, and is widely used in the aerospace industry, ships, automobiles, and civil engineering based on its low density. Carbon-reinforced fiber plastic is a material widely used in parts and manufactured products, and structural analysis simulation is required during design, and application of actual material properties is necessary for accurate structural analysis simulation. In the case of carbon-reinforced fiber plastics, it is reported that there is a porosity of around 0.5% to 6%, and it is necessary to check the change in material properties according to the porosity and pore shape. It was confirmed by applying the method. It was confirmed that the change in elastic modulus according to the porosity was 10.7% different from the base material when the porosity was 6.0%, and the Poisson's ratio was confirmed to be less than 3.0%. It was confirmed that the elliptical spherical pore derived different material properties from the spherical pore depending on the pore shape, and it was confirmed that the shape of the pore had to be confirmed to derive equivalent material properties.

• 표창민(한국생산기술연구원) | Chang-Min Pyo (Korea Institute of Industrial Technology)
• 이재영(CP시스템) | Jae-Young Lee (CP SYSTEM CO., LTD)
• 김경민(CP시스템) | Kyung-Min Kim (CP SYSTEM CO., LTD)
• 하을용(한국생산기술연구원) | Eul-Yong Ha (Korea Institute of Industrial Technology)
• 김영현 (한국생산기술연구원) | Young-Hyun Kim (Korea Institute of Industrial Technology)
• 김재웅(한국생산기술연구원) | Jaewoong Kim (Korea Institute of Industrial Technology, Principal Researcher) Corresponding author