This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Piston Design Using Multi-Objective Reliability-Based Design Optimization

Journal Article
2010-01-0907
ISSN: 1946-3979, e-ISSN: 1946-3987
Published April 12, 2010 by SAE International in United States
Piston Design Using Multi-Objective Reliability-Based Design Optimization
Sector:
Citation: Patel, P., Shah, P., and Mourelatos, Z., "Piston Design Using Multi-Objective Reliability-Based Design Optimization," SAE Int. J. Mater. Manuf. 3(1):493-511, 2010, https://doi.org/10.4271/2010-01-0907.
Language: English

References

  1. Reddy, M. V. Granhdi, R. V. Hopkins, D. A. “Reliability Based Structural Optimization: A Simplified Safety Index Approach,” Computers and Structures 53 6 1407 1418 1994
  2. Lee, J. O. Yang, Y. O. Ruy, W. S. “A Comparative Study on Reliability Index and Target Performance Based Probabilistic Structural Design Optimization,” Computers and Structures 80 257 269 2002
  3. Zou, T. Mourelatos, Z. P. Mahadevan, S. Tu, J. “Indicator Response Surface for Simulation-Based Reliability Analysis,” ASME Journal of Mechanical Design 130 7 2008
  4. Wu, Y.-T. Wang, W. “Efficient Probabilistic Design by Converting Reliability Constraints to Approximately Equivalent Deterministic Constraints,” Journal of Integrated Design and Process Sciences 2 4 13 21 1998
  5. Youn, B. D. Choi, K. K. Park, Y. H. “Hybrid Analysis Method for Reliability-Based Design Optimization,” ASME Journal of Mechanical Design 125 2 221 232 2003
  6. Du, X. Chen, W. “Sequential Optimization and Reliability Assessment Method for Efficient Probabilistic Design,” ASME Journal of Mechanical Design 126 2 225 233 2004
  7. Liang, J. Mourelatos, Z. P. Tu, J. “A Single-Loop Method for Reliability-Based Design Optimization,” International Journal of Product Development 5 1/2 76 92 2008
  8. Dursunkaya, Z. Keribar, R. “Simulation of Secondary Dynamics of Articulated and Conventional Piston Assemblies,” SAE Technical Paper 920484 1992
  9. Tsujiuchi, N. Koizumi, T. Hamada, K. Okamura, M. et al. “Optimization of Profile for Reduction of Piston Slap Excitation,” SAE Technical Paper 2004-32-0022 2004
  10. Nakayama, K. Tamaki, S. Miki, H. Takiguchi, M. “The Effect of Crankshaft Offset on Piston Friction Force in a Gasoline Engine,” SAE Technical Paper 2000-01-0922 2000
  11. Patel, P. “Development of an Algorithm for Piston Secondary Dynamics and Skirt-liner Contact and its use in Multi-Objective Piston Design under Uncertainty,” Department of Mechanical Engineering, Oakland University 2009
  12. Shah, P. “An Efficient Piston Design Methodology including Secondary Dynamics and Elastohydrodynamic Lubricataion,” Department of Mechanical Engineering, Oakland University 2008
  13. Patel, P. Mourelatos, Z.P. Shah, P. “A Comprehensive Method for Piston Secondary Dynamics and Piston-Bore Contact,” SAE Technical Paper 2007-01-1249 2007
  14. Shah, P. Mourelatos, Z.P. Patel, P. “Piston Secondary Dynamics Considering Elastohydrodynamic Lubrication,” SAE Technical Paper 2007-01-1251 2007
  15. Taylor, C. M. “Automobile Engine Tribology - Design Considerations for Efficiency and Durability,” Wear 221 1 8 1998
  16. Wang, Y. Yao, C. Barber, G. C. Zhou, B. Zou Q. “Scuffing Resistance of Coated Piston Skirts Run Against Cylinder Bores,” Wear 259 1041 1047 2005
  17. Liu, K. Xie, Y. B. Gu, C. L. “A Comprehensive Study of the Friction and Dynamic Motion of the Piston Assembly,” Proceeding of Institute of Mechanical Engineers 212 J 221 226 1998
  18. Jin, R. “Investigations and Enhancements of Metamodeling Techniques in Engineering Design” University of Illinois at Chicago Chicago, IL 2003
  19. Crary, S. B. “Design of Computer Experiments for Metamodel Generation,” Analog Integrated Circuits and Signal Processing 37 7 16 2002
  20. Powell, M. J. D. “Radial Basis Functions for Multivariable Interpolation: A Review,” Mason, J. C. Cox, M. G. Algorithms for Approximation London Oxford University Press 1987
  21. Sasaki, D. Obayashi, S. Sawada, K. Himeno, R. “Multi-Objective Aerodynamic Optimization of Supersonic Wings Using Navier-Strokes Equations,” European Congress on Computational Methods in Applied Sciences and Engineering Barcelona 2000
  22. Deb, K. Agrawal, S. Pratap, A. Meyarivan, T. “A Fast and Elitist Multi-Objective Genetic Algorithm for Multi-Objective Optimization: NSGA-II,” Proceedings of the Parallel Problem Solving from Nature VI Conference 849 858 Paris 2000
  23. Knowles, J. Corne, D. “The Pareto Archived Evolution Strategy: A New Baseline Algorithm for Multi-Objective Optimization,” Proceedings of the 1999 Congress on Evolutionary Computation IEEE Service Center 98 105 New Jersey 1999
  24. Marler, R. T. “A Study of Multi-Objective Optimization Methods for Engineering Applications,” The University of Iowa Iowa City, Iowa 2005
  25. Zadeh, L. “Optimality and Non-Scalar-Valued Performance Criteria,” IEEE Transactions on Automatic Control 59 60 1963
  26. Weck, O. De. Kim, I. Y. “Adaptive Weighted Sum Method for Bi-Objective Optimization,” 45 th AIAA/ASME/ASCE.AHS/ASC Structures, Structural Dynamics & Materials Conference April 19-22 Palm Springs, California 2004
  27. Hobbs, B. F. “A Comparison of Weighting Methods in Power Plant Sitting,” Decision Sciences 11 725 737 1980
  28. Yoon, K. P. Hwang, C. -L. “Multiple Attribute Decision Introduction,” Sage Publications London 1995
  29. Saaty, T. L. Hu, G. “Ranking by Eigenvector Versus Other Methods in the Analytic Hierarchy Process,” Applied Mathematical Letters 11 4 121 125 1998
  30. Saaty, T. L. “Decision-Making with AHP: Why is the Principal Eigenvalue Necessary,” European Journal of Operational Research 145 85 91 2003
  31. ISIGHT FD 3.1 Users Manual Dassault Systems 2008
  32. Tu, J. Choi, K. K. Park, Y. H. “A New Study on Reliability-Based Design Optimization” ASME Journal of Mechanical Design 121 557 564 1999

Cited By