Toughening mechanisms in elastomer-modified epoxies: Part 1 Mechanical Studies AF Yee, RA Pearson Journal of materials science 21, 2462-2474, 1986 | 1455* | 1986 |
Influence of particle size and particle size distribution on toughening mechanisms in rubber-modified epoxies RA Pearson, AF Yee Journal of materials science 26, 3828-3844, 1991 | 674 | 1991 |
Toughening Mechanism in Elastomer-Modified Epoxies-Part 3: Effect of Cross-Link Density RA Pearson, AF Yee J. Mater. Sci 24, 2571-2580, 1989 | 640 | 1989 |
Rubber-toughened epoxies: a critical review R Bagheri, BT Marouf, RA Pearson Journal of Macromolecular Science®, Part C: Polymer Reviews 49 (3), 201-225, 2009 | 525 | 2009 |
Toughening mechanisms in thermoplastic-modified epoxies: 1. Modification using poly (phenylene oxide) RA Pearson, AF Yee polymer 34 (17), 3658-3670, 1993 | 490 | 1993 |
Effect of silica nanoparticle size on toughening mechanisms of filled epoxy P Dittanet, RA Pearson Polymer 53 (9), 1890-1905, 2012 | 335 | 2012 |
Role of particle cavitation in rubber-toughened epoxies: 1. Microvoid toughening R Bagheri, RA Pearson Polymer 37 (20), 4529-4538, 1996 | 290 | 1996 |
Toughening mechanisms in epoxy–silica nanocomposites (ESNs) YL Liang, RA Pearson Polymer 50 (20), 4895-4905, 2009 | 289 | 2009 |
The effect of particle–matrix adhesion on the mechanical behavior of glass filled epoxies. Part 2. A study on fracture toughness T Kawaguchi, RA Pearson Polymer 44 (15), 4239-4247, 2003 | 250 | 2003 |
Role of particle cavitation in rubber-toughened epoxies: II. Inter-particle distance R Bagheri, RA Pearson Polymer 41 (1), 269-276, 2000 | 215 | 2000 |
The toughening mechanism in hybrid epoxy-silica-rubber nanocomposites (HESRNs) YL Liang, RA Pearson Polymer 51 (21), 4880-4890, 2010 | 209 | 2010 |
Toughening of epoxy nanocomposites: nano and hybrid effects BT Marouf, YW Mai, R Bagheri, RA Pearson Polymer Reviews 56 (1), 70-112, 2016 | 179 | 2016 |
Electrically conductive multiphase polymer blend carbon‐based composites PJ Brigandi, JM Cogen, RA Pearson Polymer Engineering & Science 54 (1), 1-16, 2014 | 163 | 2014 |
The modelling of the toughening of epoxy polymers via silica nanoparticles: The effects of volume fraction and particle size DJ Bray, P Dittanet, FJ Guild, AJ Kinloch, K Masania, RA Pearson, ... Polymer 54 (26), 7022-7032, 2013 | 151 | 2013 |
Use of surface modified recycled rubber particles for toughening of epoxy polymers R Bagheri, MA Williams, RA Pearson Polymer Engineering & Science 37 (2), 245-251, 1997 | 128 | 1997 |
Synthesis and application of core–shell particles as toughening agents for epoxies JY Qian, RA Pearson, VL Dimonie, MS El‐Aasser Journal of applied polymer science 58 (2), 439-448, 1995 | 126 | 1995 |
Fatigue of rubber-modified epoxies: effect of particle size and volume fraction HR Azimi, RA Pearson, RW Hertzberg Journal of materials science 31, 3777-3789, 1996 | 125 | 1996 |
Effect of bimodal particle size distributions on the toughening mechanisms in silica nanoparticle filled epoxy resin P Dittanet, RA Pearson Polymer 54 (7), 1832-1845, 2013 | 123 | 2013 |
Fatigue of hybrid epoxy composites: epoxies containing rubber and hollow glass spheres HR Azimi, RA Pearson, RW Hertzberg Polymer Engineering & Science 36 (18), 2352-2365, 1996 | 121 | 1996 |
Multicomponent latex IPN materials: 2. Damping and mechanical behavior R Hu, VL Dimonie, MS El‐Aasser, RA Pearson, A Hiltner, SG Mylonakis, ... Journal of Polymer Science Part B: Polymer Physics 35 (10), 1501-1514, 1997 | 117 | 1997 |