References
- Han Z, He YF, Lin HC and Zhao H: ‘Dealloying characterizations of Cu-Al alloy in marine environment’, J. Mater. Sci. Lett., 2000, 19, (5), 393–395.
- Grass G, Rensing C and Solioz M: ‘Metallic copper as an antimicrobial surface’, Appl. Environ. Microbiol., 2011, 77, (5), 1541–1547.
- Shirtcliffe NJ, McHale G, Newton MI and Perry CC: ‘Wetting and wetting transitions on copper-based super-hydrophobic surfaces’, Langmuir, 2005, 21, (3), 937–943.
- Yilbas BS, Toor I, Malik J, Patel F and Karatas C: ‘Electrochemical testing of laser treated bronze surface’, J. Alloys Compd, 2013, 563, 180–185.
- Yilbas BS, Akhtar S and Karatas C: ‘Laser nitriding of the surface of phosphor bronze’, Int. J. Adv. Manuf. Technol., 2013, 65, (9–12), 1553–1565.
- Yilbas BS, Akhtar S, Karatas C and Chatwin C: ‘Laser embedding of TiC particles into the surface of phosphor bronze’, Surf. Interf. Anal., 2012, 44, (7), 831–836.
- Chan M, Capek A, Brill DA and Garrett SJ: ‘Characterization of the patina formed on a low tin bronze exposed to aqueous hydrogen sulfide’, Surf. Interf. Anal., DOI: 10.1002/sia.5520, 2014.
- Lee H, Cho N and Lee J: ‘Study on surface properties of gilt-bronze artifacts, after Nd:YAG laser cleaning’, Appl. Surf. Sci., 2013, 284, 235–241.
- Xu J.-L, Yang B, Gao W, Wang Z.-P, Long D.-W, Ju C.-Y and Yu T: ‘Microstructure and performance of laser cladding on surface of aluminum bronze’, J. Aeronaut. Mater., 2009, 29, (1), 63–67.
- Cheng FT, Tang CH and Man HC: ‘Laser surface alloying of a marine propeller bronze using aluminium powder’, Surf. Coat. Technol., 2006, 200, (8), 2594–2601.
- Cottam R, Barry T, McDonald D, Li H, Edwards D, Majumdar A, Dominguez J, Wang J and Brandt M: ‘Laser processing of nickel-aluminum bronze for improved surface corrosion properties’, J. Laser Appl., 2013, 25, (3), DOI: 10.2351/1.4799555.
- Tang CH, Cheng FT and Man HC: ‘Effect of laser surface melting on the corrosion and cavitation erosion behaviors of a manganese-nickel-aluminium bronze’, Mater. Sci. Eng. A (Struct. Mater.: Proper., Microstr. Process.), 2004, A373, (1–2), 195–203.
- Khosroshahi ME, Mahmoodi M, Saeedinasab H and Tahriri M: ‘Evaluation of mechanical and electrochemical properties of Ti6Al4V alloy surface modified by Nd:YAG laser for biomedical applications:an invitro study’, Surf. Eng., 2008, 209, 24–27.
- Li FQ, Li LQ and Chen YB: Arc Enhanc. Laser Melt Inject. WC Partic. Al Surf., 2013, 29, (4), 296–299.
- Viswanathan A, Sastikumar D, Kamachimudali U, Kumar H and Nath AK: ‘TiC reinforced composite layer formation on AlSi alloy by laser processing’, Surf. Eng., 2007, 23, (2), 123–128.
- Dajnowski BA: ‘Laser ablation cleaning of an underwater archaeological bronze spectacle plate from the H.M.S. DeBraak shipwreck’, The International Society for Optical Engineering, Vol. 8790, DOI: 10.1117/12.2022526, 2013.
- Kwon MH, Shin HS and Chu CN: ‘Fabrication of a super-hydrophobic surface on metal using laser ablation and electrodeposition’, Appl. Surf. Sci., 2014, 288, 222–230.
- Tang M, Shim V, Pan ZY, Choo YS and Hong MH: ‘Laser ablation of metal substrates for super-hydrophobic effect’, J. Laser Micro Nanoeng., 2011, 6, (1), 6–9.
- Yue GH, Yan PX and Wang J: ‘Study on the preparation and properties of copper nitride thin films’, J. Crystal Growth, 2005, 274, 464–468.
- Nosonovsky M and Bhushan B: ‘Multiscale dissipative mechanisms and hierarchical surfaces: friction, superhydrophobicity, and biomimetics’; 2008, Heidelberg, Springer.
- Wenzel RN: ‘Resistance of solid surfaces to wetting by water’, Industr. Eng. Chem., 1936, 28, 988–994.
- Cassie ABD and Baxter S: ‘Wettability of porous surfaces’, Trans. Faraday Soc., 1944, 40, 546–551.
- Bhushan B: ‘Biomimetics: bioinspired hierarchical-structured surfaces for green science and technology’; 2012, Heidelberg, Springer.
- Zan H.-W, Yen K.-H, Liu P.-K, Ku K.-H, Chen C.-H and Hwang J: ‘Low-voltage organic thin film transistors with hydrophobic aluminum nitride film as gate insulator’, Organic Electr., 2007, 8, 450–454.
- Khan ZA, Hadfield M, Tobe S and Wang Y: ‘Ceramic rolling elements with ring crack defects – a residual stress approach’, Mater. Sci. Eng. A, 2005, 404, 221–226.
- Young Modulus of Elasticity for Metals and Alloys & Coefficients of Linear Expansion: http://www.engineeringtoolbox.com/young-modulus-d_773.html; www.engineeringtoolbox.com/linear-expansion-coefficients-d_95.html, 2014.