Transactions of the Korean Society of Mechanical Engineers A (대한기계학회논문집A)

The Korean Society of Mechanical Engineers (대한기계학회)
권호 표지
DOI QR코드

DOI QR Code

Accelerated Life Evaluation of Propeller Shaft for Forklift Truck

지게차용 추진축의 가속 수명 평가

  • Kim, Do-Sik (Reliability Assessment Center, Korea Institure of Machinery & Materials) ;
  • Sung, Baek-Ju (Reliability Assessment Center, Korea Institure of Machinery & Materials)
  • 김도식 (한국기계연구원 신뢰성평가센터) ;
  • 성백주 (한국기계연구원 신뢰성평가센터)
  • Received : 2014.02.21
  • Accepted : 2014.08.18
  • Published : 2014.11.01
Download PDF
⟨ Previous Next ⟩

Abstract

This paper proposes an approach for predicting the fatigue life of a propeller shaft of a forklift truck by an accelerated life test method. The accelerated life test method adopted in this study is the calibrated accelerated life test, which is highly effective in the prediction of the lifetime and enables significant reduction of the test time as well as a quantification of reliability in the case of small sample sizes. First, the fatigue test was performed under two high stress levels, and then, it was performed by setting low stress levels in consideration of the available test time and extrapolation. Major reliability parameters such as the lifetime, accelerated power index, and shape parameter were obtained experimentally, and the experimentally predicted lifetime of the propeller shaft was verified through comparison with results of an analysis of load spectrum data under actual operating conditions.

본 논문은 가속시험법을 이용하여 추진축의 피로 수명을 예측하는 것이다. 가속시험방법으로는 교정가속시험법을 적용하였으며, 이 시험법은 시험시료 수량이 적을 경우에 시험시간 단축과 신뢰성을 높이는 매우 효과적인 방법이다. 두 수준의 고부하 스트레스 수준에서 피로시험을 수행하고, 외삽법과 가용한 시험시간을 고려하여 저부하 스트레스 시험 수준을 결정하여 피로시험을 수행하였다. 본 논문에서는 가속지수와 형상모수 등의 신뢰성 파라미터를 시험을 수행하여 획득하였고, 실제 사용 환경의 로드 스펙트럼을 분석하고 시험 결과와 비교하여 추진축의 수명을 예측할 수 있었다.

Keywords

References

  1. Sonsino, C. M., Kaufmann, H., Foth, J. and Jauch, F., 1997, "Fatigue Strength of Driving Shafts of Automatic Transmission Gearboxes under Operational Torques," SAE technical paper 970706.
  2. General Motors Corp., 2004, "Calibrated Accelerated Life Testing(CALT)," GM Worldwide Engineering Standards, GMW 8758.
  3. Kim, D.S., Kim, H.E., Yoon, S.H. and Kang, E.S., 2010, "Lifetime Estimation of an Axle Drive Shaft by Calibrated Accelerated Life Test Method," Trans. Korean Soc. Mech. Eng. A, Vol. 34, No.3, pp. 273-281. https://doi.org/10.3795/KSME-A.2010.34.3.273
  4. Kim, D.S., 2011, "A Study on the Accelerated Life Evaluation of Drive Shaft for Independent Suspension type AWD Vehicle," Journal of Applied Reliability, Vol. 11, No. 4, 343-356.
  5. Lee, S. R., Kim, W. D., Lee, H. J., Han, S. W. and Kim, K. S., 1994, "Measurement of Service Torque by using the Telemetry System and Prediction of Fatigue Life of Driveshaft for Passenger Car," Proceeding on KSME Autumn Annual Meeting, Vol. 1, pp. 508-516.
  6. Lee, G. H., Kim, H. E. and Kim, D. S., 2003, "Study of the Accelerated Life Test Method for Power Train Components under Cyclic Loads using Weibull-IPL(inverse power law) Model," ASME International Mechanical Engineering Congress, IMECE2003-42652.
  7. Bertsche, B., 2008, Reliability in Automotive and Mechanical Engineering: Determination of Component and System Reliability, Springer.
  8. Wasserman, G. S., 2003, Reliablity Verification, Testing and Analysis in Engineering Design, Marcel Dekker, New York.
  9. Nelson, W., 1990, Accelerated Testing; Statistical Models, Test Plans, and Data Analysis, WILEY, New York.

Cited by

  1. Accelerated Life Testing and Validity Evaluation of Finger Strips Used for Electromagnetic Shielding Doors vol.39, pp.9, 2015, https://doi.org/10.3795/KSME-A.2015.39.9.831