How to cite this paper
Pooladi, E & Farhangdoost, K. (2014). Residual strains around cold worked holes from statistical view.Engineering Solid Mechanics, 2(2), 131-138.
Refrences
Ayatollahi, M. R., & Arian Nik, M. (2009). Edge distance effects on residual stress distribution around a cold expanded hole in Al 2024 alloy. Computational Materials Science, 45(4), 1134-1141.
De Matos, P. F. P., Moreira, P. M. G. P., Camanho, P. P., & De Castro, P. M. S. T. (2005). Numerical simulation of cold working of rivet holes. Finite Elements in Analysis and Design, 41(9), 989-1007.
Farhangdoost, K., & Rahnama, S. (2011). Random Tessellation and its application at mechanics of microstructure. Journal of Solid and Fluid Mechanics, 1(1) 15-26.
Garcia-Granada, A. A., Smith, D. J., & Pavier, M. J. (2000). A new procedure based on Sachs’ boring for measuring non-axisymmetric residual stresses. International Journal of Mechanical Sciences, 42(6), 1027-1047.
Gopalakrishna, H. D., Narasimha Murthy, H. N., Krishna, M., Vinod, M. S., & Suresh, A. V. (2010). Cold expansion of holes and resulting fatigue life enhancement and residual stresses in Al 2024 T3 alloy–An experimental study. Engineering Failure Analysis, 17(2), 361-368.
Hojjati, M. H., & Hassani, A. (2007). Theoretical and finite-element modeling of autofrettage process in strain-hardening thick-walled cylinders. International Journal of Pressure Vessels and Piping, 84(5), 310-319.
Jahed, H., Lambert, S. B., & Dubey, R. N. (2000). Variable material property method in the analysis of cold-worked fastener holes. The Journal of Strain Analysis for Engineering Design, 35(2), 137-142.
Maximov, J. T., Duncheva, G. V., Ganev, N., & Bakalova, T. N. (2009). The benefit from an adequate finite element simulation of the cold hole expansion process. Engineering Failure Analysis, 16(1), 503-511.
Millwater, H., Larsen, J., & John, R. (2007). Effects of residual stresses on probabilistic lifing of engine disk materials. Materials Science and Engineering: A, 468, 129-136.
Nelson, D. V. (1982). Effects of residual stress on fatigue crack propagation. Residual Stress Effects in Fatigue, ASTM STP, 776, 172-194.
Nigrelli, V., & Pasta, S. (2008). Finite-element simulation of residual stress induced by split-sleeve cold-expansion process of holes. Journal of Materials Processing Technology, 205(1), 290-296.
Pavier, M. J., Poussard, C. G. C., & Smith, D. J. (1999). Effect of residual stress around cold worked holes on fracture under superimposed mechanical load. Engineering Fracture Mechanics, 63(6), 751-773.
Pinho, S. T., Martins, H. B., Camanho, P. P., Santare, M. H., & De Castro, P. M. S. T. (2005). Residual stress field and reduction of stress intensity factors in cold-worked holes. Theoretical and Applied Fracture Mechanics, 44(2), 168-177.
Pooladi, E. & Farhangdoost, Kh. (2013), A new practical-Analytical method to determine residual stresses around cold-worked hole based on measure residual strains, International Journal of Advances and Trends in Engineering Materials and Their Applications, 1(1), 47-52.
Reese, E. D., Dowson, A. L., & Jones, T. G. (2009). The Variable Expansion Process—a New Cost Efficient Method for Cold Working Fastener Holes in Aluminium Aircraft Structures. In ICAF 2009, Bridging the Gap between Theory and Operational Practice (pp. 1275-1284). Springer Netherlands.
Stacey, A., & Webster, G. A. (1988). Determination of residual stress distributions in autofrettaged tubing. International Journal of Pressure Vessels and Piping, 31(3), 205-220.
Sobczyk, K., & Trebicki, J. (2004). Fatigue crack growth in random residual stresses. International Journal of Fatigue, 26(11), 1179-1187.
Su, M., Amrouche, A., Mesmacque, G., & Benseddiq, N. (2008). Numerical study of double cold expansion of the hole at crack tip and the influence on the residual stresses field. Computational Materials Science, 41(3), 350-355.
Wanlin, G. (1993). Elastic-plastic analysis of a finite sheet with a cold-worked hole. Engineering Fracture Mechanics, 46(3), 465-472.
Yan, W. Z., Wang, X. S., Gao, H. S., & Yue, Z. F. (2012). Effect of split sleeve cold expansion on cracking behaviors of titanium alloy TC4 holes. Engineering Fracture Mechanics, 88, 79-89.
Zhao, W., Seshadri, R., & Dubey R.N., (2003), On thick-walled cylinder under internal pressure, Journal of Pressure Vessel Technology, 125, 267-273.
De Matos, P. F. P., Moreira, P. M. G. P., Camanho, P. P., & De Castro, P. M. S. T. (2005). Numerical simulation of cold working of rivet holes. Finite Elements in Analysis and Design, 41(9), 989-1007.
Farhangdoost, K., & Rahnama, S. (2011). Random Tessellation and its application at mechanics of microstructure. Journal of Solid and Fluid Mechanics, 1(1) 15-26.
Garcia-Granada, A. A., Smith, D. J., & Pavier, M. J. (2000). A new procedure based on Sachs’ boring for measuring non-axisymmetric residual stresses. International Journal of Mechanical Sciences, 42(6), 1027-1047.
Gopalakrishna, H. D., Narasimha Murthy, H. N., Krishna, M., Vinod, M. S., & Suresh, A. V. (2010). Cold expansion of holes and resulting fatigue life enhancement and residual stresses in Al 2024 T3 alloy–An experimental study. Engineering Failure Analysis, 17(2), 361-368.
Hojjati, M. H., & Hassani, A. (2007). Theoretical and finite-element modeling of autofrettage process in strain-hardening thick-walled cylinders. International Journal of Pressure Vessels and Piping, 84(5), 310-319.
Jahed, H., Lambert, S. B., & Dubey, R. N. (2000). Variable material property method in the analysis of cold-worked fastener holes. The Journal of Strain Analysis for Engineering Design, 35(2), 137-142.
Maximov, J. T., Duncheva, G. V., Ganev, N., & Bakalova, T. N. (2009). The benefit from an adequate finite element simulation of the cold hole expansion process. Engineering Failure Analysis, 16(1), 503-511.
Millwater, H., Larsen, J., & John, R. (2007). Effects of residual stresses on probabilistic lifing of engine disk materials. Materials Science and Engineering: A, 468, 129-136.
Nelson, D. V. (1982). Effects of residual stress on fatigue crack propagation. Residual Stress Effects in Fatigue, ASTM STP, 776, 172-194.
Nigrelli, V., & Pasta, S. (2008). Finite-element simulation of residual stress induced by split-sleeve cold-expansion process of holes. Journal of Materials Processing Technology, 205(1), 290-296.
Pavier, M. J., Poussard, C. G. C., & Smith, D. J. (1999). Effect of residual stress around cold worked holes on fracture under superimposed mechanical load. Engineering Fracture Mechanics, 63(6), 751-773.
Pinho, S. T., Martins, H. B., Camanho, P. P., Santare, M. H., & De Castro, P. M. S. T. (2005). Residual stress field and reduction of stress intensity factors in cold-worked holes. Theoretical and Applied Fracture Mechanics, 44(2), 168-177.
Pooladi, E. & Farhangdoost, Kh. (2013), A new practical-Analytical method to determine residual stresses around cold-worked hole based on measure residual strains, International Journal of Advances and Trends in Engineering Materials and Their Applications, 1(1), 47-52.
Reese, E. D., Dowson, A. L., & Jones, T. G. (2009). The Variable Expansion Process—a New Cost Efficient Method for Cold Working Fastener Holes in Aluminium Aircraft Structures. In ICAF 2009, Bridging the Gap between Theory and Operational Practice (pp. 1275-1284). Springer Netherlands.
Stacey, A., & Webster, G. A. (1988). Determination of residual stress distributions in autofrettaged tubing. International Journal of Pressure Vessels and Piping, 31(3), 205-220.
Sobczyk, K., & Trebicki, J. (2004). Fatigue crack growth in random residual stresses. International Journal of Fatigue, 26(11), 1179-1187.
Su, M., Amrouche, A., Mesmacque, G., & Benseddiq, N. (2008). Numerical study of double cold expansion of the hole at crack tip and the influence on the residual stresses field. Computational Materials Science, 41(3), 350-355.
Wanlin, G. (1993). Elastic-plastic analysis of a finite sheet with a cold-worked hole. Engineering Fracture Mechanics, 46(3), 465-472.
Yan, W. Z., Wang, X. S., Gao, H. S., & Yue, Z. F. (2012). Effect of split sleeve cold expansion on cracking behaviors of titanium alloy TC4 holes. Engineering Fracture Mechanics, 88, 79-89.
Zhao, W., Seshadri, R., & Dubey R.N., (2003), On thick-walled cylinder under internal pressure, Journal of Pressure Vessel Technology, 125, 267-273.