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21 results

Electrodeposition and characterisation of Ni/gelatin microgels coatings

Journal Article
Gibb, A., Vorobjovs, A., Jagoda, Z., Winiarski, J., & Stankiewicz, A. (2020)
Electrodeposition and characterisation of Ni/gelatin microgels coatings. Transactions of the Institute of Metal Finishing, 98(1), 15-20. https://doi.org/10.1080/00202967.2020.1692528
This work focuses on implementing microgels for carrying self-healing substances in protective coatings. Ni/gelatin microgels coatings were manufactured using electroplating t...

Measurement of viscoelasticity of sodium alginate by Fibre Bragg Grating

Conference Proceeding
Binetti, L., Stankiewicz, A., & Alwis, L. (2019)
Measurement of viscoelasticity of sodium alginate by Fibre Bragg Grating. https://doi.org/10.3390/proceedings2019015033
A novel sensor for measuring viscoelastic properties of sodium alginate (SA) in distilled water of concentration (0.5, 1.0, 1.5, 2.0, 2.5, and 3.0 w/w%) has been tested. The s...

Surface functionalisation by the introduction of self-healing properties into electroless Ni-P coatings

Journal Article
Stankiewicz, A., Kefallinou, Z., Mordarski, G., Jagoda, Z., & Spencer, B. (2019)
Surface functionalisation by the introduction of self-healing properties into electroless Ni-P coatings. Electrochimica Acta, 297, 427-434. doi:10.1016/j.electacta.2018.12.026
Ni-P∖alginate microgels coatings, as potential metallic protective coatings with self-healing properties, were deposited by the electroless method. The alginate microgels cont...

Graphene-Oxide and Hydrogel Coated FBG-Based pH Sensor for Biomedical Applications

Journal Article
Binetti, L., Stankiewicz, A., & Alwis, L. S. M. (2018)
Graphene-Oxide and Hydrogel Coated FBG-Based pH Sensor for Biomedical Applications. Proceedings, 2(13), 789. https://doi.org/10.3390/proceedings2130789
A hydrogel coated fibre grating-based pH sensor for biomedical applications has been realised, where Graphene Oxide (GO) had been used to enhance the bonding between the coati...

Self-healing nanocoatings for protection against steel corrosion

Book Chapter
Stankiewicz, A. (2018)
Self-healing nanocoatings for protection against steel corrosion. In Nanotechnology in Eco-efficient Construction: Materials, Processes and Applications, (303-335). (2nd). Elsevier
This chapter deals with the issue of corrosion protection of steel surfaces. The corrosion process and approaches to corrosion protection are presented. The chapter presents a...

Surface functionalisation by the introduction of self-healing properties into electroless Ni -P

Presentation / Conference
Stankiewicz, A., Kefallinou, Z., Mordarski, G., Jagoda, Z., & Spencer, B. (2018, July)
Surface functionalisation by the introduction of self-healing properties into electroless Ni -P. Poster presented at Electrochemical Methods in Corrosion Research 2018
Ni-P\alginate microgels coatings, as potential metallic protective coatings with self-healing properties, were deposited by the electroless method. The alginate microgels cont...

Electroless Ni-P\alginate microgels coatings with self-healing properties

Conference Proceeding
Stankiewicz, A., Winiarski, J., Zielinska, K., & Barker, M. (2017)
Electroless Ni-P\alginate microgels coatings with self-healing properties. In Proceedings of EuroCorr 2017
Self-healing coatings, offering corrosion protection on an alloy steel substrate, were fabricated by electroless co-deposition of a Ni-P matrix together wit...

Electroless co-deposition of gelatine microgels with nickel-phosphorous coatings

Conference Proceeding
Rumbles, M., & Stankiewicz, A. (2017)
Electroless co-deposition of gelatine microgels with nickel-phosphorous coatings. In European Corrosion Congress (EUROCORR 2017) and 20th International Corrosion Congress and Process Safety Congress 2017: Corrosion Control for Safer Living
NiP\gelatine microgel coatings were produced using the electroless co-deposition technique. Gelatine performed as a corrosion inhibitor for steel alloy substrate when exposed ...

Development of self-healing coatings for corrosion protection on metallic structures

Journal Article
Stankiewicz, A., & Barker, M. B. (2016)
Development of self-healing coatings for corrosion protection on metallic structures. Smart Materials and Structures, 25(8), 084013. https://doi.org/10.1088/0964-1726/25/8/084013
Inspired by biological systems, artificial self-healing materials are designed for repairing local damage caused by external factors. The rapidly expanding field of self-heali...

Gelatin microgels as a potential corrosion inhibitor carriers for self-healing coatings: Preparation and codeposition: Gelatin microgels as carriers for self-healing coatings

Journal Article
Stankiewicz, A., Jagoda, Z., Zielińska, K., & Szczygieł, I. (2015)
Gelatin microgels as a potential corrosion inhibitor carriers for self-healing coatings: Preparation and codeposition: Gelatin microgels as carriers for self-healing coatings. Materials and corrosion : with International Corrosion abstracts = Werkstoffe und Korrosion : Organ der Arbeitsgemeinschaft Korrosion und der Dechema-Beratungsstelle für Werkstoff-Fragen, 66(12), 1391-1396. https://doi.org/10.1002/maco.201508436
Co-deposition of a coating with capsules containing a corrosion inhibitor is one of the methods to protect the material surface against corrosion. This generation of coatings ...