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The Development of a Simplified Spot Weld Model for Battelle Structural Stress Calculation

Journal Article
2011-01-0479
ISSN: 1946-3979, e-ISSN: 1946-3987
DOI: https://doi.org/10.4271/2011-01-0479
Published April 12, 2011 by SAE International in United States
The Development of a Simplified Spot Weld Model for Battelle Structural Stress Calculation
Sector:
Citation: Hong, J., "The Development of a Simplified Spot Weld Model for Battelle Structural Stress Calculation," SAE Int. J. Mater. Manuf. 4(1):602-612, 2011, https://doi.org/10.4271/2011-01-0479.
Language: English

References

  1. Dong, P. Hong, J.K. Cao, Z. “A Mesh-Insensitive Structural Stress Procedure for Fatigue Evaluation of Welded Structures IIW Doc. XIII-1902-01/XV-1089-01 2001
  2. Dong, P. Hong, J. K. Osage, D.A. Prager, M. “Master S-N Curve Method for Fatigue Evaluation of Welded Components,” Welding Research Council Bulletin 474 Welding Research Council 2002
  3. Dong, P. Hong, J.K. Cao, Z. “Structural Stress Based Master S-N Curve for Welded Joints,” IIW Doc. XIII-1930-02/XV-1119-02 2002
  4. Dong, P. Hong, J.K. “The Master S-N Curve Approach to Fatigue of Vessel and Piping Welds,” Welding in the World 48 1/2 28 36 2003
  5. Dong, P. Hong, J. K. “The Master S-N Curve Approach to Fatigue Evaluation of Offshore and Marine Structures,” the Proceedings of the OMAE 2004 2 2004
  6. Dong, P. Hong, J. K. De Jesus, A. M. P. “Analysis of Recent Fatigue Data Using the Structural Stress Procedure in ASME Div 2 Rewrite,” Transactions of ASME, Journal of Pressure Vessel Technology 139 3 355 362 2007
  7. 2007 ASME Boiler and Pressure Vessel Code, Section VIII, Div.2 ASME 2007
  8. API Standard 579-1/ASME FFS-1 Fitness for Service API 2007
  9. Dong, P. Hong, J. “CAE Weld Durability Prediction: A Robust Single Damage Parameter Approach,” SAE Technical Paper 2002-01-0151 2002 10.4271/2002-01-0151
  10. Potukutchi, R. Agrawal, H. Perumalswami, P. Dong, P. “Fatigue Analysis of Steel MIG Welds in Automotive Structures,” SAE Technical Paper 2004-01-0627 2004 10.4271/2004-01-0627
  11. Dong, P. Hong, J.K. Potukutchi, R. Agrawal, H. “Master S-N Curve Method for Fatigue Evaluation of Aluminum MIG and Laser Welds,” SAE Technical Paper 2004-01-1235 2004
  12. Dong, P. Hong, J.K. Potukuchi, R. Agrawal, H. “Master S-N Curve Development an d Validations for Aluminum MIG and Laser Welds,” IIW Doc. XIII-2035-04/XV-1172-04 2004
  13. Hong, J.K. Dong, P. “Hot Spot Stress and Structural Stress Analysis of FPSO Fatigue Details,” Proceedings of the OMAE, OMAE Specialty Conference on Integrity of FPSO Systems, OMAE-FPSO-023 2004
  14. Kyuba, H. Dong, P. Hong, J.K. Agrawal, H. “SAE Weld Challenge Problem,” SAE Technical Paper 2204-01-1234 2004
  15. Kang, H. T. Dong, P. Hong, J. K. “Fatigue Analysis of Spot Welds Using a Mesh-Insensitive Structural Stress Approach,” International Journal of Fatigue 29 1546 1553 2007
  16. Rahman, M.M. Bakar, R. A. Noor, M. M. Rejab, M. R. M. Sani, M. S. M. “Fatigue Life Prediction of Spot-Welded Structures: A Finite Element Analysis Approach,” European Journal of Scientific Research 22 444 456 2008
  17. Rahman, M. M. Rosli, A. B. Noor, M. M. Sani, M. S. M. Julie, J. M. “Effects of Spot Diameter and Sheets Thickness on Fatigue Life of Spot Welded Structure based on FEA Approach,” American Journal of Applied Science 6 137 142 2009
  18. Zhang, J. Dong, P. Gao, Y. “Evaluation of Stress Intensity Factor-Based Predictive Technique for Fatigue Life of Resistance Spot Welds,” SAE Technical Paper 2001-01-0830 2001 10.4271/2001-01-0830
  19. Rupp, A. Störzel, K. Grubisic, V. “Computer Aided Dimensioning of Spot-Welded Automotive Structures,” SAE Technical Paper 950711 1995 10.4271/950711
  20. Maddox, S. J. “Fatigue Design of Welded Structures,” Engineering Design in Welded Constructions Pergamon Oxford 31 56 1992
  21. Zhang, S. “Stress Intensities at Spot Welds,” International Journal of Fracture ,” 88 167 185 1997
  22. Zhang, S. “Approximate Stress Intensity Factors and Notch Stress for Common Spot-Welded Specimens,” Welding Journal Research Supplement 78 173-s 179-s 1999
  23. Radaj, D. Sonsino, C. M. “Fatigue Assessment of Welded Joints by Local Approaches,” Abington Publishing Cambridge, England 1998
  24. Henrysson, H.-F. “Effects of Mean Stress and Crack Closure on Fatigue Life of Spot Welds,” Fatigue and Fracture Engineering and Material Structures 25 1175 1185 2002
  25. Lanciotti, A. Polese, C. “Fatigue Crack Propagation in Tensile Shear Stainless Steel Spot Welded Specimens,” Fatigue and Fracture Engineering and Material Structures 31 76 84 2008
  26. Iwasaki, T. Tanake, J. Kabasawa, M. Nagae, M. “Fatigue Strength of Base Metal and Spot Welded Joints in HSLA Steels for Automotive Applications,” Nippon Kokan Technical Report Overseas 34 31 40 1982
  27. Melander, A. Larsson, M. Stensiö, H. Gustavsson, A. Linder, J. “Fatigue Performance of Weldbonded High Strength Sheet Steels Tested in Arctic, Room Temperature and Tropical Environments,” International Journal of Adhesion & Adhesives 20 415 425 2000
  28. Pan, N Sheppard, S. “Spot Welds Fatigue Life Prediction with Cyclic Strain Range,” International Journal of Fatigue 24 519 528 2002
  29. Bonnen, J. Agrawal, H. Amaya, M. Iyengar, R. et al. “Fatigue of Advanced High Strength Steel Spot-Welds,” SAE Technical Paper 2006-01-0978 2006 10.4271/2006-01-0978
  30. Kang, H. Barkey, M.E. Lee, Y. “Evaluation of Multiaxial Weld Fatigue parameters for Proportional Loading,” International Journal of Fatigue 22 691 702 2000
  31. Adib, H. Gilgert, J. Pluvinage, G. “Fatigue Life Duration Prediction for Welded Sports by Volumetic Method,” International Journal of Fatigue 26 81 94 2004

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