| The multiaxial creep ductility of austenitic stainless steels MW Spindler Fatigue & fracture of engineering materials & structures 27 (4), 273-281, 2004 | 204 | 2004 |
| A Code of Practice for conducting notched bar creep tests and for interpreting the data. GA Webster, SR Holdsworth, MS Loveday, K Nikbin, IJ Perrin, H Purper, ... Fatigue & Fracture of Engineering Materials & Structures 27 (4), 2004 | 135 | 2004 |
| The multiaxial and uniaxial creep ductility of Type 304 steel as a function of stress and strain rate MW Spindler Materials at high Temperatures 21 (1), 47-54, 2004 | 73 | 2004 |
| An improved method for calculation of creep damage during creep–fatigue cycling MW Spindler Materials Science and Technology 23 (12), 1461-1470, 2007 | 60 | 2007 |
| The prediction of creep damage in type 347 weld metal. Part I: the determination of material properties from creep and tensile tests MW Spindler International journal of pressure vessels and piping 82 (3), 175-184, 2005 | 55 | 2005 |
| Critical analysis of the prediction of stress relaxation from forward creep of Type 316H austenitic stainless steel YQ Wang, MW Spindler, CE Truman, DJ Smith Materials & Design 95, 656-668, 2016 | 49 | 2016 |
| Factors affecting reheat cracking in the HAZ of austenitic steel weldments RP Skelton, IW Goodall, GA Webster, MW Spindler International journal of pressure vessels and piping 80 (7-8), 441-451, 2003 | 47 | 2003 |
| Advanced Ductility Exhaustion Methods for the Calculation of Creep Damage During Creep-Fatigue Cycling MW Spindler, WM Payten Journal of ASTM International 8 (7), 19, 2011 | 43 | 2011 |
| The prediction of creep damage in Type 347 weld metal: part II creep fatigue tests MW Spindler International Journal of Pressure Vessels and Piping 82 (3), 185-194, 2005 | 43 | 2005 |
| The multiaxial creep ductility of an ex-service type 316H stainless steel MW Spindler, R Hales, RP Skelton BOOK-INSTITUTE OF MATERIALS 769, 679-690, 2001 | 36 | 2001 |
| The effect of prior cyclic loading variables on the creep behaviour of ex-service type 316H stainless steel TD Joseph, D McLennon, MW Spindler, CE Truman, DJ Smith Materials at high temperatures 30 (2), 156-160, 2013 | 25 | 2013 |
| An Improved Method to Calculate the Creep-Fatigue Endurance of Type 316H Stainless Steel MW Spindler Materials for Advanced Power Engineering 2006 3, 1673-1682, 2006 | 21 | 2006 |
| Creep deformation, rupture and ductility of Esshete 1250 MW Spindler, SL Spindler International journal of pressure vessels and piping 85 (1-2), 89-98, 2008 | 20 | 2008 |
| Constitutive equations that describe creep stress relaxation for 316H stainless steel at 550 C B Chen, DJ Smith, PEJ Flewitt, MW Spindler Materials at High Temperatures 28 (3), 155-164, 2011 | 19 | 2011 |
| Effects of dwell location on the creep-fatigue endurance of cast Type 304L MW Spindler Materials at High Temperatures 25 (3), 187-196, 2008 | 19 | 2008 |
| An investigation into creep cavity development in 316H stainless steel H Jazaeri, PJ Bouchard, MT Hutchings, MW Spindler, AA Mamun, ... Metals 9 (3), 318, 2019 | 17 | 2019 |
| Creep rupture data assessments of alloy 617 S Chandra, R Cotgrove, SR Holdsworth, M Schwienheer, MW Spindler ECCC conference, London, 2005 | 16 | 2005 |
| Development of an advanced creep model for Type 316 stainless steel J Douglas, M Spindler, R Dennis ASME Pressure Vessels and Piping Conference 42878, 399-418, 2007 | 15 | 2007 |
| The Multi-axial Creep of Austenitic Stainless Steels, Nuclear Electric Report TIGM/REP/0014/94 MW Spindler Nuclear Electric PLC, UK, 1994 | 14* | 1994 |
| Multiaxial Creep-Fatigue Rules, IAEA/IWGFR Technical Committee Meeting on" Creep Fatigue Damage Rules to be Used in Fast Reactor Design", Altrincham UK, 11-13. June 1996 … MW Spindler, R Hales, RA Ainsworth as IAEA-TECDOC-933, ISSN 1011-4289, 1997 | 12* | 1997 |
Pertti AuerkariSenior Principal Scientist, Technical Research Center of Finland在 vtt.fi 的电子邮件经过验证
Pertti AuerkariSenior Principal Scientist, Technical Research Center of Finland在 vtt.fi 的电子邮件经过验证