Title :
Finite element analysis of carbon fiber reinforced plastic body frame for seabed robot, Crabster200
Author :
Seong-yeol Yoo ; Bong-Huan Jun ; Hyungwon Shim ; Pan-Mook Lee ; Boram Kim
Author_Institution :
Ocean Syst. Eng. Res. Div., Korea Inst. of Ocean Sci. & Technol., Daejeon, South Korea
Abstract :
This paper describes finite element analysis(FEA) for the body frame of 200 meter class multi-legged subsea robot, Crabster200(CR200). The body frame of CR200 is designed as a rib cage in order to disperse applied external loads and is made of carbon fiber reinforced plastic(CFRP) Therefore, the frame is lighter and stronger than a frame of the other conventional materials. In order to perform the reasonable FEA for CFRP body frame, we carried out specimen test of CFRP. Using the obtained material properties from the test, we performed modal analysis and FEA with respect to certain load conditions. The first load condition is when the CR200 stands in the air and the other condition is when the robot stands in underwater. Finally, this paper presents the results of FEA for CFRP body frame.
Keywords :
carbon fibre reinforced plastics; finite element analysis; legged locomotion; lightweight structures; marine engineering; mechanical strength; modal analysis; remotely operated vehicles; underwater vehicles; CFRP; Crabster200 seabed robot; FEA; applied external loads; carbon fiber reinforced plastic body frame; finite element analysis; load conditions; modal analysis; multilegged subsea robot; Finite element analysis; Legged locomotion; Load modeling; Oceans; Strain; Stress; Carbon fiber reinforced plastic(CFRP); Crabster200; Finite element analysis; Rib cage structure; Subsea robot;
Conference_Titel :
OCEANS - Bergen, 2013 MTS/IEEE
Conference_Location :
Bergen
Print_ISBN :
978-1-4799-0000-8
DOI :
10.1109/OCEANS-Bergen.2013.6608156
