The mechanics of fracture and fatigue AP Parker An Introduction, 1981 | 280 | 1981 |
Stress intensity factors, crack profiles, and fatigue crack growth rates in residual stress fields AP Parker Residual stress effects in fatigue, 1982 | 225 | 1982 |
Autofrettage of open-end tubes—pressures, stresses, strains, and code comparisons AP Parker J. Pressure Vessel Technol. 123 (3), 271-281, 2001 | 203 | 2001 |
Bauschinger effect design procedures for autofrettaged tubes including material removal and Sachs’ method AP Parker, JH Underwood, DP Kendall | 126 | 1999 |
Dimensionless stress intensity factors for cracked thick cylinders under polynomial crack face loadings CP Andrasic, AP Parker Engineering Fracture Mechanics 19 (1), 187-193, 1984 | 94 | 1984 |
Experimental data, numerical fit and fatigue life calculations relating to the Bauschinger effect in high strength armament steels E Troiano, AP Parker, J Underwood, C Mossey J. Pressure Vessel Technol. 125 (3), 330-334, 2003 | 81 | 2003 |
Thermal damage, cracking and rapid erosion of cannon bore coatings JH Underwood, AP Parker, GN Vigilante, PJ Cote J. Pressure Vessel Technol. 125 (3), 299-304, 2003 | 74 | 2003 |
Influence of Bauschinger effect on residual stress and fatigue lifetimes in autofrettaged thick-walled cylinders AP Parker, JH Underwood Fatigue and fracture mechanics: 29th volume, 1999 | 69 | 1999 |
Characterization of steels using a revised kinematic hardening model incorporating Bauschinger effect AP Parker, E Troiano, JH Underwood, C Mossey J. Pressure Vessel Technol. 125 (3), 277-281, 2003 | 68 | 2003 |
Stability of arrays of multiple edge cracks AP Parker Engineering Fracture Mechanics 62 (6), 577-591, 1999 | 61 | 1999 |
A boundary integral equation method for axisymmetric elastic contact problems MJ Abdul-Mihsein, AA Bakr, AP Parker Computers & structures 23 (6), 787-793, 1986 | 52 | 1986 |
A re-autofrettage procedure for mitigation of Bauschinger effect in thick cylinders AP Parker J. Pressure Vessel Technol. 126 (4), 451-454, 2004 | 50 | 2004 |
Hydraulic versus swage autofrettage and implications of the Bauschinger effect AP Parker, GP O’Hara, JH Underwood J. Pressure Vessel Technol. 125 (3), 309-314, 2003 | 49 | 2003 |
Stress intensity and fatigue crack growth in a pressurized, autofrettaged thick cylinder AP Parker, JH Underwood, JF Throop, CP Andrasic Fracture Mechanics: Fourteenth Symposium—Volume I: Theory and Analysis, 1983 | 49 | 1983 |
Opening mode stress intensity factors for cracks in pin-loads joints DJ Cartwright, AP Parker International Journal of Fracture 18, 65-78, 1982 | 47 | 1982 |
On the equivalence of axisymmetric bending, thermal, and autofrettage residual stress fields AP Parker, JR Farrow The Journal of Strain Analysis for Engineering Design 15 (1), 51-52, 1980 | 43 | 1980 |
Stress intensity factors for multiple radial cracks emanating from the bore of an autofrettaged or thermally stressed, thick cylinder AP Parker, JR Farrow Engineering Fracture Mechanics 14 (1), 237-241, 1981 | 41 | 1981 |
Finite element investigation of Bauschinger effect in high-strength A723 pressure vessel steel E Troiano, JH Underwood, AP Parker | 39 | 2006 |
Mechanisms and modeling comparing HB7 and A723 high strength pressure vessel steels E Troiano, AP Parker, JH Underwood J. Pressure Vessel Technol. 126 (4), 473-477, 2004 | 38 | 2004 |
Residual stresses and lifetimes of tubes subjected to shrink fit prior to autofrettage AP Parker, DP Kendall J. Pressure Vessel Technol. 125 (3), 282-286, 2003 | 37 | 2003 |