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한국생산제조학회 학술지 영문 홈페이지
[ Article ]
Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 27, No. 1, pp.7-13
ISSN: 2508-5107 (Online)
Print publication date 15 Feb 2018
Received 11 Dec 2017 Revised 03 Jan 2018 Accepted 12 Jan 2018
DOI: https://doi.org/10.7735/ksmte.2018.27.1.7

고온 열화 고무의 응력 완화를 이용한 가속 수명 평가

오성훈a ; 김홍석b ; 정성균b ; 신기훈b, *
Evaluation of Accelerated Life of High-temperature Deteriorated Rubber by Stress Relaxation
Sunghun Oha ; Hong Seok Kimb ; Seong-Kyun Cheongb ; Ki-Hoon Shinb, *
aDept. of Mechanical Engineering, Graduate School of Seoul National University of Science and Technology, 232, Gongneung-ro, Nowon-gu, Seoul 01811, Korea
bDept. of Mechanical and Automotive Engineering, Seoul National University of Science and Technology, 232, Gongneung-ro, Nowon-gu, Seoul 01811, Korea

Correspondence to: *Tel.: +82-2-970-6320, Fax: +82-2-949-1458, E-mail address: shinkh@seoultech.ac.kr (Ki-Hoon Shin).

Abstract

Rubber materials are indispensable in various industrial environments. However, it is very difficult to predict the physical properties and life of rubber materials depending on their usage environment. Physical properties begin to deteriorate owing to chemical changes even when rubber materials are not used. Despite this deterioration, they can be used within a range that does not impair safety or performance. In this study, rubber specimens made of NR65 natural rubber were first deteriorated at 80°C for one week and one month, respectively. Next, the stress relaxations of three groups of specimens were observed at various elongation conditions (50%, 100%, and 150%). An inverse power model for predicting life was derived from the experimental results. Finally, life at a relatively low elongation condition (30%) was predicted and validated by comparison.

Keywords:

Life of rubber materials, Deterioration, Stress relaxation, NR65 natural rubber

Acknowledgments

이 논문은 국토교통과학기술진흥원에서 시행하는 철도기술연구사업(17RTRP-B084184-04)의 일환으로 수행되었습니다.

References

  • Mullins. L, 1948, Effect of stretching on the Properties of Rubber, Rubber Chemistry and Technology, 21: 2 281-300.
  • Mullins. L, 1969, Softening of Rubber by Deformation, Rubber Chemistry and Technology, 42:1 339-362.
  • Woo, C. S., Park, H. S., 2008, Useful Lifetime Evaluation of Rubber Component for Elevator Cabin, Proceedings of KSME Autumn Conference, 576-580.
  • Woo, C. S., Park, H. S., Yang, S. C., Jang, S. Y., Kim, E., 2009, Lifetime Prediction of Rubber Pad for High Speed Railway Vehicle, Transactions of KSME A, 33:8 739-744. [https://doi.org/10.3795/KSME-A.2009.33.8.739]
  • Woo, C. S., Park, H. S., Choi, B. I., Choi, J. H., 2010, Evaluation of Rubber Material Properties Considering Perceived Quality Based on Reliability, Proceedings of KSME Autumn Conference, 1139-1145.
  • Cui, T., Chao, Y. J., Chen, X. M., Zee Van J. W., 2011, Effect of Water on Life Prediction of Liquid Silicone Rubber Seals in Polymer Electrolye Membrane Fuel Cell, Journal of Power Sources, 196 9536-9543. [https://doi.org/10.1016/j.jpowsour.2011.07.066]
  • Zhou, K., Wang, C. Z., Hu, B., 2015, The Storage Length Evaluation of Rubber Sealing Components With Accelerated Thermal Ageing Tests, Advanced Materials Research, 1061-1062 619-625.
  • Lee, S.Y., You, J. H., Lee, Y. S., Kim, H. S., Cheong, S. K., Shin, K. H., 2016, A Study on the Accelerated Life Test of Rubber Specimens by Using Stress Relaxation, Journal of the Korean Society of Safety, 31:1 19-24.
  • Oh, S. H., Lee, S. Y., You, J. H., Kim, H. S., Cheong, S. K., Shin, K. H., 2017, Temperature-Dependant Mullins Effect in Anti-Vibration Rubber for Railway Vehicles, Journal of the Korean Society of Manufacture and Technology, 26: 2 193-198.
  • Rebouah, M., Chagnon, G., Favier, D., 2013, Anisotropic Modelling of the Mullins Effect and the Residual Strain of Filled Silicone Rubber, In 8th European Conference Constitutive Models for Rubber. Netherland : Taylor & Francis Group, 431-435.