Dong-Hyeop Kim scite author profile

Airworthiness standards of Korea recommend verifying structural safety by experimental tests and analytical methods, owing to the development of analysis technology. In this study, we propose a methodology to verify the structural safety of aircraft components based on airworthiness requirements using an analytical method. The structural safety and fatigue integrity of a linear actuator for flap control of aircraft was evaluated through numerical analysis. The static and fatigue analyses for the given loads obtained from the multibody dynamics analysis were performed using the finite element method. Subsequently, the margin of safety and vulnerable area were acquired and the feasibility of the structural safety evaluation using the analytical method was confirmed. The proposed numerical analysis method in this study can be adopted as an analytical verification methodology for the airworthiness standards of civilian aircraft in Korea.

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Numerical investigation of impact-induced damage of auxiliary composite fuel tanks on Korean Utility Helicopter

Kim

2019

Composites Part B: Engineering

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Dong-Hyeop Kim

Structural Safety Evaluation of Test Fixture for Static Load Test of External Fuel Tank for Fixed-Wing Aircraft

Evaluation of bird strike-induced damages of helicopter composite fuel tank assembly based on fluid-structure interaction analysis

Evaluation of curing process-induced deformation in plain woven composite structures based on cure kinetics considering various fabric parameters

Numerical Evaluation of Structural Safety of Linear Actuator for Flap Control of Aircraft Based on Airworthiness Standard

Numerical investigation of impact-induced damage of auxiliary composite fuel tanks on Korean Utility Helicopter

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