Title

Routes and mechanisms towards self healing behaviour in engineering materials

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2010

Volume

58

Issue

No 2

Authors

van der Zwaag, S.

Divisions of PAS

Nauki Techniczne

Coverage

227-236

Date

2010

Identifier

DOI: 10.2478/v10175-010-0022-6 ; ISSN 2300-1917

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2010; 58; No 2; 227-236

References

S. van der Zwaag (2007), Self Healing Materials: an Alternative Approach to 20 centuries of Materials Science. ; Aizenberg J. (2009), Biological and biomimetic materials, Adv. Mater, 21, 387. ; Ghosh S. (2009), Self Healing Materials. ; Yuan Y. (2008), Self healing in polymers and composites. Concepts, realization and outlook: a review, Express Pol Lett, 2, 238. ; White S. (2001), Autonomous healing of polymer composites, Nature, 409, 794. ; Brown E. (2002), Fracture testing of a self-healing polymer composite, Experimental Mechanics, 42, 372. ; Brown E. (2004), Microcapsule induced toughening in a self-healing polymer composite, J. Materials Science, 39, 1703. ; Brown E. (2005), Retardation and repair of fatigue cracks in a microcapsule toughened epoxy composite - Part I: Manual infiltration, Composites Science and Technology, 65 A, 2466. ; Brown E. (2005), Retardation and repair of fatigue cracks in a microcapsule toughened epoxy composite - Part II: In situ self-healing, Composites Science and Technology, 65 B, 2474. ; Mookhoek S. (2010), Applying SEM-based X-ray microtomography to observe self-healing in solvent encapsulated thermoplastic materials, Adv. Eng. Mater, 12. ; Dry C. (1994), Matrix cracking repair and filling using active and passive modes for smart timed release of chemicals from fibres into cement matrices, Smart Materials and Structures, 3, 2, 118. ; Dry C. (1996), Procedure developed for self-repair of polymer matrix composite materials, Composite Structures, 35, 3, 263. ; Dry C. (2000), Three designs for the internal release of sealants, adhesives and waterproofing chemicals into concrete, Cement & Concrete Research, 30, 1969. ; Trask R. (2006), Biomimetic self-healing of advanced composite structures using hollow glass fibres, Smart Mat. & Struct, 15, 704. ; Trask R. (2007), Bioinspired self-healing of advanced composite structures using hollow glass fibres, J. Roy. Soc. Interface, 4 A, 363. ; Trask R. (2007), Self-healing polymer composites: mimicking nature to enhance performance, Bioinspiration & Biomimetics, 2, 1, 1. ; Mookhoek S. (2009), A numerical study into the effects of elongated capsules on the healing efficiency of liquid based systems, Comp. Mater. Sci, 47, 506. ; S. D. Mookhoek, "Novel routes to liquid-based self-healing polymer system", <i>PhD Thesis</i>, Technical University Delft, Delft, 2010. ; A. Garcia Schlangen (2009), Eectrical conductivity of asphalt mortar, Constr. Build. Mater, 23, 3175. ; Hayes S. (2007), A self-healing thermosetting composite material, Composites Pt, A 38, 1116. ; Hayes S. (2007), Self-healing of damage in fibre reinforced polymer-matrix composites, J. Roy. Soc. Interface, 4, 381. ; Picken S. (2010), Optimisation of Polymer Nanocomposite Systems. ; Chen X. (2002), A thermally re-mendable crosslinked polymeric material, Science, 295, 1698. ; Chen X. (2003), New thermally remendable highly crosslinked polymeric materials, Macromolecules, 36, 1802. ; Sijbesma R. (1997), Reversible polymers formed from self-complementary monomers using quadrupole hydrogen bonding, Science, 278, 1601. ; Cordier P. (2008), Self-healing in a thermoreversible rubber from supramolecular assembly, Nature, 451, 977. ; Kalista S. (2007), Thermal characteristics of the self healing response of EMAA, J. Roy. Soc. Interface, 4, 405. ; Varley R. (2008), The development of a quasi-static test method to investigate the origin of self healing in ionomers under ballistic conditions, Polymer Testing, 27, 11. ; Varley R. (2010), Towards an understanding of thermally activated self healing of an ionomer system during ballistic penetration, Acta Materialia, 58. ; Varley R. (2010), The effect of cluster plastification on the self healing behaviour of ionomers, Polymer, 51, 679. ; Ghosh B. (2009), Self repairing oxetane substituted chitosan polyurethane networks, Science, 323, 1458. ; Lumley R. (2003), Interrupted aging and secondary precipitation in aluminium alloys, Mater. Sci. Technol, 19, 1483. ; Shinya N. (2006), Self-healing effect of boron nitride precipitation on creep cavitation in austenitic stainless steels, J. Intelligent Material Systems and Structures, 17, 1127. ; Laha K. (2007), An advanced creep cavitation resistance in Cu-containing 18Cr-12Ni-Nb austenitic stainless steels, Scripta Mater, 56, 915. ; S. van der Zwaag (2009), Self healing in man-made engineering materials: bioinspired but taking into account their intrinsic character, Phil. Trans. Roy. Soc. A. Math. Phys. Eng. Sci, 367, 1689. ; Hautakangas S. (2007), The role of the aging temperature on the self healing kinetics in an underaged AA2024 aluminium alloy, Self healing Materials: an Alternative Approach to 20 Centuries of Materials Science, 100. ; Hautakangas S. (2008), Self healing of deformation damage in underaged Al-Cu-Mg alloys, Scripta Mater, 58, 719. ; Kochubey V. (2008), Self healing mechanism in thermal barrier coatings, null, 1. ; Ando K. (2005), Crack-healing ability of structural ceramics and a new methodology to guarantee the structural integrity, J. Eur. Ceram Soc, 25, 549. ; Song G. (2008), Oxidation induced crack healing of Ti₃AlC₂ ceramics, Scripta Mater, 58, 13. ; Song G. (2008), Early stages of oxidation of Ti3AlC2 ceramics, Mater. Chem. Phys, 112, 762. ; Li S. (2010), Self healing ceramic with repeatable repairability of damage events, Science, 328. ; Peng J. (2005), Self-healing materials, null, 1. ; Luding S. (2008), Self-healing of damaged particulate materials through sintering, Philosophical Magazine, 88, 28, doi.org/10.1080/14786430802438176 ; Li V. (2007), Self healing in concrete materials, Self healing materials - an Alternative Approach to 20 Centuries of Materials Science, 1, 161. ; Nijland T. (2007), Self healing phenomena in concretes and masonry mortars: a microscopic study, null, 1, 1. ; Lepech M. (2006), Long term durability performance of engineered cementitious composites, Int. J. Restoration Buildings Monuments, 12, 2, 119. ; Bang S. (2001), Calcite precipitation induced by polyurethane-immobilized Bacillus pasteurii, Enzyme Microb. Tech, 28, 404. ; W. De Muynck (2008), Bacterial carbonate precipitation improves the durability of cementitious materials, Cem. Concr. Res, 38, 1005. ; Jonkers H. (2007), Self Healing Materials - an Alternative Approach to 20 Centuries of Materials Science, 195. ; Jonkers H. (2008), Development of a bacteria-based self healing concrete, Proc. Int. FIB Symposium, 1, 425. ; Jonkers H. (2009), A two component bacteria based self healing concrete, Concr. Repair, Rehab. and Retrofit, 1, 119.