| A self-healing carbon fibre reinforced polymer for aerospace applications G Williams, R Trask, I Bond Composites Part A: Applied Science and Manufacturing 38 (6), 1525-1532, 2007 | 617 | 2007 |
| Biomimetic self-healing of advanced composite structures using hollow glass fibres RS Trask, IP Bond Smart Materials and Structures 15 (3), 704, 2006 | 477 | 2006 |
| Self-healing polymer composites: mimicking nature to enhance performance RS Trask, HR Williams, IP Bond Bioinspiration & Biomimetics 2 (1), P1, 2007 | 419 | 2007 |
| Bioinspired self-healing of advanced composite structures using hollow glass fibres RS Trask, GJ Williams, IP Bond Journal of the royal society Interface 4 (13), 363-371, 2007 | 352 | 2007 |
| 3D printed components with ultrasonically arranged microscale structure TM Llewellyn-Jones, BW Drinkwater, RS Trask Smart Materials and Structures 25 (2), 02LT01, 2016 | 299 | 2016 |
| 3D printed polyurethane honeycombs for repeated tailored energy absorption SRG Bates, IR Farrow, RS Trask Materials & Design 112, 172-183, 2016 | 286 | 2016 |
| An experimental demonstration of effective Curved Layer Fused Filament Fabrication utilising a parallel deposition robot RJA Allen, RS Trask Additive Manufacturing 8, 78-87, 2015 | 230 | 2015 |
| Responsive cellulose-hydrogel composite ink for 4D printing MC Mulakkal, RS Trask, VP Ting, AM Seddon Materials & Design 160, 108-118, 2018 | 222 | 2018 |
| Self-healing composite sandwich structures HR Williams, RS Trask, IP Bond Smart Materials and Structures 16 (4), 1198, 2007 | 222 | 2007 |
| Self-healing sandwich panels: restoration of compressive strength after impact HR Williams, RS Trask, IP Bond Composites Science and Technology 68 (15-16), 3171-3177, 2008 | 202 | 2008 |
| Self‐healing fibre reinforced composites via a bioinspired vasculature CJ Norris, GJ Meadway, MJ O'Sullivan, IP Bond, RS Trask Advanced Functional Materials 21 (19), 3624-3633, 2011 | 191 | 2011 |
| Compressive behaviour of 3D printed thermoplastic polyurethane honeycombs with graded densities SRG Bates, IR Farrow, RS Trask Materials & Design 162, 130-142, 2019 | 179 | 2019 |
| Compression after impact assessment of self-healing CFRP GJ Williams, IP Bond, RS Trask Composites Part A: Applied Science and Manufacturing 40 (9), 1399-1406, 2009 | 173 | 2009 |
| Mode I interfacial toughening through discontinuous interleaves for damage suppression and control M Yasaee, IP Bond, RS Trask, ES Greenhalgh Composites Part A: Applied Science and Manufacturing 43 (1), 198-207, 2012 | 163 | 2012 |
| Morphing in nature and beyond: a review of natural and synthetic shape-changing materials and mechanisms K Oliver, A Seddon, RS Trask Journal of Materials Science 51, 10663-10689, 2016 | 155 | 2016 |
| Self‐healing of an epoxy resin using scandium (III) triflate as a catalytic curing agent TS Coope, UFJ Mayer, DF Wass, RS Trask, IP Bond Advanced Functional Materials 21 (24), 4624-4631, 2011 | 146 | 2011 |
| Interactions between propagating cracks and bioinspired self-healing vascules embedded in glass fibre reinforced composites CJ Norris, IP Bond, RS Trask Composites Science and Technology 71 (6), 847-853, 2011 | 143 | 2011 |
| Biomimetic reliability strategies for self-healing vascular networks in engineering materials HR Williams, RS Trask, AC Knights, ER Williams, IP Bond Journal of the Royal Society Interface 5 (24), 735-747, 2008 | 142 | 2008 |
| Characterization and analysis of carbon fibre-reinforced polymer composite laminates with embedded circular vasculature CY Huang, RS Trask, IP Bond Journal of the royal society Interface 7 (49), 1229-1241, 2010 | 139 | 2010 |
| The role of embedded bioinspired vasculature on damage formation in self-healing carbon fibre reinforced composites CJ Norris, IP Bond, RS Trask Composites Part A: Applied Science and Manufacturing 42 (6), 639-648, 2011 | 128 | 2011 |
Ian P BondUniversity of Bristol在 bristol.ac.uk 的电子邮件经过验证
