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NTIS 바로가기Elastomers and composites = 엘라스토머 및 콤포지트, v.55 no.2, 2020년, pp.88 - 94
Lee, Min-A (Department of Mechanical System Design Engineering, Seoul National University of Science and Technology) , Lyu, Min-Young (Department of Mechanical System Design Engineering, Seoul National University of Science and Technology)
Automobile industry, along with the automobile steering system, is rapidly changing and developing. The constant velocity joint transmits power to the wheels of vehicles without changing their angular velocity based on the movement of the steering wheel. Moreover, it controls their movement to act a...
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Y. J. Cho, "A Research on the Technology Trend and Future Market Prospect of EV/HEV", Master's Thesis, Hanyang Univ., Seoul, Republic of Korea, 2017.
J. S. Sa, Y. H. Shin, T. W. Kang, and C. M. Kim, "A Study on the Characteristics of Idle Vibration due to the Type of Constant Velocity Joints", Trans. Kor. Soc. Automotive Eng., 16, 183 (2008).
K. S. Park, B. J. Kim, J. H. Jang, and Y. H. Moon, "Development of CV Joint Outer Race Ball Groove Measurement System", Proc. Kor. Soc. Tech. Plast. Conf., 160 (2005).
H. Huh, "Self Contact Analysis of Rubber-Bootss for C. V. Joints by a 3-D Finite Element Method", Master's Thesis, KAIST, Daejeon, Republic of Korea, 1997.
Y. S. Shim, "Finite Element Analysis of C. V. Joint Boots to Increase Durability Performance", Master's Thesis, Kangwon National Univ. Kangwon, Republic of Korea, 1996.
H. K. Lee and K. H. Lee, "Analytical Design Study on CVJ Boots Applying TPEE Material", Trans. Kor. Soc. of Automotive Eng., 3, 1542 (2002).
T. Y. Lee, "Modification of Thermoplastic Polyether-ester Elastomer for Automotive Application", Ph. D. Thesis, Kyungpook National Univ. Kyungpook, Republic of Korea, 2010.
S. H. Kim, H. W. Lee, H. Huh, J. H. Lee, and S. T. Oh, "Stress Analysis of C. V. Joint Rubber Bootss by Finite Element Method and Application to Design Modification", Trans. Kor. Soc. Automotive Eng., 6, 123 (1998).
C. Shashikanth and K. Mahesh Dutt., "Non Linear Analysis of Rubber Boots Sear", International J. Eng. Research & Tech., 2, 1970 (2013).
N. Woo, B. Ross, and R. West, "Need for Accurate Initial Conditions to Simulate Flexible Structures in Motion", Trans. Kor. Soc. Eng. C, 3, 97 (2015).
N. J. Jeong, "A Study of Optimum Geometry for a Rubber Air Spring of Commercial Vehicle using the Non-linear Finite Element Method, Master's Thesis, Inje Univ., Kangwon, Republic of Korea, 2007.
W. D. Kim, C. S. Woo, and S. W. Han, "Finite Element Analysis and Fatigue Life Evaluation of Automotive Rubber Insulator", Elastomers, 33, 1159 (1998).
C. W. Park, C. H. Park, S. D. Choi, and H. J. Choi, "Analysis of Deformations of Dust-seal in Ball Joint used for Automobile Part", Proc. Kor. Soc. Precision Eng. Spring Annual Meeting, 765 (2009).
D. W. Hainest and W. D. Wilson, "Strain-Energy Density Function for Rubber like Material", J. Mech. Phys. Solids, 29, 345 (1979).
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