Abstract
Advanced fiber-reinforced laminated composites are widely used in various fields of engineering to reduce weight. The material property of each ply is well known; specifically, it is known that ply is less reliable than metallic materials and very sensitive to the loading direction. Therefore, it is important to consider this uncertainty in the design of laminated composites. In this study, reliability analysis is conducted using Callosum and Meatball interactions for a laminated composite plate for the case in which the tip deflection is the design requirement and the material property is a random variable. Furthermore, the efficiency and accuracy of the approximation method is identified, and a probabilistic sensitivity analysis is conducted. As a result, we can prove the applicability of the advanced design method for the stabilizer of an underwater vehicle.
Lee, Seokje;
Kim, Ingul;
[1]
Jang, Moonho;
Kim, Jaeki;
Moon, Jungwon
[2]
- Chungnam National Univ., Daejeon (Korea, Republic of)
- LIG Nex1, Yongin (Korea, Republic of)
Citation Formats
Lee, Seokje, Kim, Ingul, Jang, Moonho, Kim, Jaeki, and Moon, Jungwon.
Reliability and Sensitivity Analysis for Laminated Composite Plate Using Response Surface Method.
Korea, Republic of: N. p.,
2013.
Web.
doi:10.3795/KSME-A.2013.37.4.461.
Lee, Seokje, Kim, Ingul, Jang, Moonho, Kim, Jaeki, & Moon, Jungwon.
Reliability and Sensitivity Analysis for Laminated Composite Plate Using Response Surface Method.
Korea, Republic of.
https://doi.org/10.3795/KSME-A.2013.37.4.461
Lee, Seokje, Kim, Ingul, Jang, Moonho, Kim, Jaeki, and Moon, Jungwon.
2013.
"Reliability and Sensitivity Analysis for Laminated Composite Plate Using Response Surface Method."
Korea, Republic of.
https://doi.org/10.3795/KSME-A.2013.37.4.461.
@misc{etde_22201990,
title = {Reliability and Sensitivity Analysis for Laminated Composite Plate Using Response Surface Method}
author = {Lee, Seokje, Kim, Ingul, Jang, Moonho, Kim, Jaeki, and Moon, Jungwon}
abstractNote = {Advanced fiber-reinforced laminated composites are widely used in various fields of engineering to reduce weight. The material property of each ply is well known; specifically, it is known that ply is less reliable than metallic materials and very sensitive to the loading direction. Therefore, it is important to consider this uncertainty in the design of laminated composites. In this study, reliability analysis is conducted using Callosum and Meatball interactions for a laminated composite plate for the case in which the tip deflection is the design requirement and the material property is a random variable. Furthermore, the efficiency and accuracy of the approximation method is identified, and a probabilistic sensitivity analysis is conducted. As a result, we can prove the applicability of the advanced design method for the stabilizer of an underwater vehicle.}
doi = {10.3795/KSME-A.2013.37.4.461}
journal = []
issue = {4}
volume = {37}
journal type = {AC}
place = {Korea, Republic of}
year = {2013}
month = {Apr}
}
title = {Reliability and Sensitivity Analysis for Laminated Composite Plate Using Response Surface Method}
author = {Lee, Seokje, Kim, Ingul, Jang, Moonho, Kim, Jaeki, and Moon, Jungwon}
abstractNote = {Advanced fiber-reinforced laminated composites are widely used in various fields of engineering to reduce weight. The material property of each ply is well known; specifically, it is known that ply is less reliable than metallic materials and very sensitive to the loading direction. Therefore, it is important to consider this uncertainty in the design of laminated composites. In this study, reliability analysis is conducted using Callosum and Meatball interactions for a laminated composite plate for the case in which the tip deflection is the design requirement and the material property is a random variable. Furthermore, the efficiency and accuracy of the approximation method is identified, and a probabilistic sensitivity analysis is conducted. As a result, we can prove the applicability of the advanced design method for the stabilizer of an underwater vehicle.}
doi = {10.3795/KSME-A.2013.37.4.461}
journal = []
issue = {4}
volume = {37}
journal type = {AC}
place = {Korea, Republic of}
year = {2013}
month = {Apr}
}