The determination of activation energy from linear heating rate experiments: a comparison of the accuracy of isoconversion methods MJ Starink Thermochimica acta 404 (1-2), 163-176, 2003 | 1972 | 2003 |
Precipitates and intermetallic phases in precipitation hardening Al–Cu–Mg–(Li) based alloys SC Wang, MJ Starink International Materials Reviews 50 (4), 193-215, 2005 | 1009 | 2005 |
A model for the yield strength of overaged Al–Zn–Mg–Cu alloys MJ Starink, SC Wang Acta Materialia 51 (17), 5131-5150, 2003 | 527 | 2003 |
A new method for the derivation of activation energies from experiments performed at constant heating rate MJ Starink Thermochimica Acta 288 (1-2), 97-104, 1996 | 507 | 1996 |
Two types of S phase precipitates in Al–Cu–Mg alloys SC Wang, MJ Starink Acta Materialia 55 (3), 933-941, 2007 | 404 | 2007 |
Analysis of aluminium based alloys by calorimetry: quantitative analysis of reactions and reaction kinetics MJ Starink International Materials Reviews 49 (3-4), 191-226, 2004 | 377 | 2004 |
Effect of self-accommodation on α/α boundary populations in pure titanium SC Wang, M Aindow, MJ Starink Acta materialia 51 (9), 2485-2503, 2003 | 371 | 2003 |
Precipitation hardening in Al–Cu–Mg alloys revisited SC Wang, MJ Starink, N Gao Scripta Materialia 54 (2), 287-291, 2006 | 349 | 2006 |
Effect of compositional variations on characteristics of coarse intermetallic particles in overaged 7000 aluminium alloys Li X.-M., MJ Starink Materials science and technology 17 (11), 1324-1328, 2001 | 243 | 2001 |
On the meaning of the impingement parameter in kinetic equations for nucleation and growth reactions MJ Starink Journal of Materials Science 36 (18), 4433-4441, 2001 | 231 | 2001 |
Microstructural evolution, strengthening and thermal stability of an ultrafine-grained Al–Cu–Mg alloy Y Chen, N Gao, G Sha, SP Ringer, MJ Starink Acta Materialia 109, 202-212, 2016 | 215 | 2016 |
The thermodynamics of and strengthening due to co-clusters: general theory and application to the case of Al–Cu–Mg alloys MJ Starink, SC Wang Acta Materialia 57 (8), 2376-2389, 2009 | 209 | 2009 |
β′ and β precipitation in an Al–Mg alloy studied by DSC and TEM MJ Starink, AM Zahra Acta materialia 46 (10), 3381-3397, 1998 | 203 | 1998 |
Kinetic equations for diffusion-controlled precipitation reactions MJ Starink Journal of materials science 32, 4061-4070, 1997 | 199 | 1997 |
The strength of friction stir welded and friction stir processed aluminium alloys MJ Starink, A Deschamps, SC Wang Scripta materialia 58 (5), 377-382, 2008 | 198 | 2008 |
A model for precipitation kinetics and strengthening in Al–Cu–Mg alloys IN Khan, MJ Starink, JL Yan Materials Science and Engineering: A 472 (1-2), 66-74, 2008 | 198 | 2008 |
Altered ageing behaviour of a nanostructured Mg-8.2 Gd-3.8 Y-1.0 Zn-0.4 Zr alloy processed by high pressure torsion WT Sun, XG Qiao, MY Zheng, C Xu, S Kamado, XJ Zhao, HW Chen, ... Acta Materialia 151, 260-270, 2018 | 196 | 2018 |
Microstrucure and strengthening of Al–Li–Cu–Mg alloys and MMCs: II. Modelling of yield strength MJ Starink, P Wang, I Sinclair, PJ Gregson Acta materialia 47 (14), 3855-3868, 1999 | 192 | 1999 |
Predicting grain refinement by cold severe plastic deformation in alloys using volume averaged dislocation generation MJ Starink, XG Qiao, J Zhang, N Gao Acta Materialia 57 (19), 5796-5811, 2009 | 173 | 2009 |
Toughness-strength relations in the overaged 7449 Al-based alloy N Kamp, I Sinclair, MJ Starink Metallurgical and Materials Transactions A 33, 1125-1136, 2002 | 173 | 2002 |