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Ni-P-Acetylacetonate-TiO2 Composite Plating with Electroless Plating: Plating Parameters and Corrosion Resistance

Yıl 2019, Cilt: 11 Sayı: 1, 192 - 199, 31.01.2019
https://doi.org/10.29137/umagd.398895

Öz

In this study, the
chemical plating parameters for Ni-P-acetylacetonate-TiO2 composite
particles and the corrosion resistances of the deposition layer obtained by
electroless plating are investigated. The effects of the TiO2
concentration, process time, temperature, and pH of the plating materials are
examined, and optimal parameters are determined. The corrosion resistance of
samples obtained by Ni-P-acetylacetonate-TiO2 composite plating is
assessed by comparison to a Ni plating layer, and it is found to be superior to
that of Ni-P plating layers in a 3.5% NaCl salt spray, as well as in 15% H2SO4
and 20% HCl solutions. The origin of this corrosion resistance in composite
plating layers is discussed.

Kaynakça

  • Balaraju, J. N., Narayanan, T. S., & Seshadri, S. (2001): Evaluation of the corrosion resistance of electroless Ni-P and Ni-P composite coatings by electrochemical impedance spectroscopy. Journal of Solid State Electrochemistry, 5, 334–338. doi:10.1007/s100080000159
  • Balaraju, J. N., Narayanan, T. S., & Seshadri, S. K. (2003): Electroless Ni–P composite coatings. Journal of Applied Electrochemistry, 33, 807–816. doi:10.1023/A:1025572410205
  • Chen, W., Gao, W., & He, Y. (2010): A novel electroless plating of Ni–P–TiO2 nano-composite coatings. Surface and Coatings Technology, 204, 2493–2498. doi:10.1016/j.surfcoat.2010.01.032
  • Farzaneh, A., Ehteshamzadeh, M., & Cobley, A. J. (2017): Modelling of surfactants and chemistry for electroless Ni-P plating. Surface Engineering, in press. 1–8. doi:10.1080/02670844.2017.1287621
  • Gawad, S. A., Baraka, A. M., Morsi, M. S., & Eltoum, M. A. (2013): Development of electroless Ni–P–Al2O3 and Ni–P–TiO2 composite coatings from alkaline hypophosphite gluconate baths and their properties. International Journal of Electrochemical Science, 8, 1722–1734.
  • Gezerman A. O. & Çorbacıoglu, B. D. (2013): Iron (II) acetylacetonate containing brightener and sulphur containing carrier in nickel plating. Surface Engineering, 29, 516–521. doi:10.1179/1743294413Y.0000000154
  • Han, C., Shao, Q., Lei, J., Zhu, Y. & Ge, S. (2017): Preparation of NiO/TiO2 pn heterojunction composites and its photocathodic protection properties for 304 stainless steel under simulated solar light. Journal of Alloys and Compounds, 703, 530–537. doi:10.1016/j.jallcom.2017.01.349
  • Hoye, R. & Gao, W. (2012): Oxidation behaviour of Ni-Cr-Y2O3 composite coatings synthesised by sol enhanced pulse electroplating. Journal of Materials Science Research, 1, 133-149. doi:10.5539/jmsr.v1n2p133
  • Kolev, K., Jadin, A., Benbakoura, S., & Laude, L. D. (1999): Excimer laser-induced modification in PMMA/Ni-acetylacetonate films for selective metallization. Applied Surface Science, 138, 434–438. doi:10.1016/S0169-4332(98)00437-1
  • Kumar, S., Pande, S., & Verma, P. (2015): Adhesion failure behavior of Ni-TiO2-Al2O3 & Ni-Al2O3 composite layers coatings evaluated using microscratch testing. International Journal of Current Engineering and Technology, 5, 704- 707, 2015.
  • Promphet, N., Rattanawaleedirojn, P., & Rodthongkum, N. (2017): Electroless NiP-TiO2 sol-RGO: A smart coating for enhanced corrosion resistance and conductivity of steel. Surface and Coatings Technology, 325, 604–610. doi:10.1016/j.surfcoat.2017.07.018
  • Ru, J., Jia, Y., Jiang, Y., Feng, J., Zhou, R., Hua, Y., & Wang, D. (2017): Modification of ZTA particles with Ni coating by electroless deposition. Surface Engineering , 33, 353–361. doi:10.1080/02670844.2016.1248119
  • Sahu, G. & Tarr, M. A. (2013): Improved performance of three-dimensional Ni–TiO2 core–shell nanowire photoanodes in dye-sensitized solar cells. MRS Communications, 3, 199–205. doi:10.1557/mrc.2013.42
  • Soares, M. E., Soares, P., Souza, P. R., Souza, R. M., & Torres, R. D. (2017): The effect of nitriding on adhesion and mechanical properties of electroless Ni–P coating on AISI 4140 steel. Surface Engineering, 33, 116–121. doi:10.1080/02670844.2016.1148831
  • Suiyuan, C., Ying, S., Hong, F., Jing, L., Changsheng, L., & Kai, S. (2012): Synthesis of Ni-P-PTFE-nano-Al2O3 composite plating coating on 45 steel by electroless plating. Journal of Composite Materials, 46, 1405–1416. doi:10.1177/0021998311420312
  • Takeda, E., Todoroki, N., Kitamoto, Y., Abe, M., Inoue, M., Fujii, T., & Arai, K. I. (2000): Faraday effect enhancement in Co–ferrite layer incorporated into one-dimensional photonic crystal working as a Fabry–Pérot resonator. Journal of Applied Physics, 87, 6782–6784. doi:10.1063/1.372840
  • Xu, Y., Zhou, M., Wen, L., Wang, C., Zhao, H., Mi, Y., & Lei, Y. (2015): Highly ordered three-dimensional Ni-TiO2 nanoarrays as sodium ion battery anodes. Chemistry of Materials, 27, 4274–4280. doi:10.1021/acs.chemmater.5b00633
  • Yongfeng, L., Limin, Z., Zhankui, W., Lijie, M., Jianxiu, S., Chang, L., & MingChao, J. (2017): Ni-P TiO2 nanoparticle composite formed by chemical plating: Deposition rate and corrosion resistance. International Journal of Electrochemical Science, 12, 3385–3397. doi: 10.20964/2017.04.41
  • Zou, G., Cao, M., Lin, H., Jin, H., Kang, Y., & Chen, Y. (2006): Nickel layer deposition on SiC nanoparticles by simple electroless plating and its dielectric behaviors. Powder Technology, 168, 84–88. doi:10.1016/j.powtec.2006.07.002
  • Ranganatha, S., Venkatesha, T. V., & Vathsala, K. (2010): Development of electroless Ni–Zn–P/nano-TiO2 composite coatings and their properties. Applied Surface Science, 256, 7377–7383. doi:10.1016/j.apsusc.2010.05.076
Yıl 2019, Cilt: 11 Sayı: 1, 192 - 199, 31.01.2019
https://doi.org/10.29137/umagd.398895

Öz

Kaynakça

  • Balaraju, J. N., Narayanan, T. S., & Seshadri, S. (2001): Evaluation of the corrosion resistance of electroless Ni-P and Ni-P composite coatings by electrochemical impedance spectroscopy. Journal of Solid State Electrochemistry, 5, 334–338. doi:10.1007/s100080000159
  • Balaraju, J. N., Narayanan, T. S., & Seshadri, S. K. (2003): Electroless Ni–P composite coatings. Journal of Applied Electrochemistry, 33, 807–816. doi:10.1023/A:1025572410205
  • Chen, W., Gao, W., & He, Y. (2010): A novel electroless plating of Ni–P–TiO2 nano-composite coatings. Surface and Coatings Technology, 204, 2493–2498. doi:10.1016/j.surfcoat.2010.01.032
  • Farzaneh, A., Ehteshamzadeh, M., & Cobley, A. J. (2017): Modelling of surfactants and chemistry for electroless Ni-P plating. Surface Engineering, in press. 1–8. doi:10.1080/02670844.2017.1287621
  • Gawad, S. A., Baraka, A. M., Morsi, M. S., & Eltoum, M. A. (2013): Development of electroless Ni–P–Al2O3 and Ni–P–TiO2 composite coatings from alkaline hypophosphite gluconate baths and their properties. International Journal of Electrochemical Science, 8, 1722–1734.
  • Gezerman A. O. & Çorbacıoglu, B. D. (2013): Iron (II) acetylacetonate containing brightener and sulphur containing carrier in nickel plating. Surface Engineering, 29, 516–521. doi:10.1179/1743294413Y.0000000154
  • Han, C., Shao, Q., Lei, J., Zhu, Y. & Ge, S. (2017): Preparation of NiO/TiO2 pn heterojunction composites and its photocathodic protection properties for 304 stainless steel under simulated solar light. Journal of Alloys and Compounds, 703, 530–537. doi:10.1016/j.jallcom.2017.01.349
  • Hoye, R. & Gao, W. (2012): Oxidation behaviour of Ni-Cr-Y2O3 composite coatings synthesised by sol enhanced pulse electroplating. Journal of Materials Science Research, 1, 133-149. doi:10.5539/jmsr.v1n2p133
  • Kolev, K., Jadin, A., Benbakoura, S., & Laude, L. D. (1999): Excimer laser-induced modification in PMMA/Ni-acetylacetonate films for selective metallization. Applied Surface Science, 138, 434–438. doi:10.1016/S0169-4332(98)00437-1
  • Kumar, S., Pande, S., & Verma, P. (2015): Adhesion failure behavior of Ni-TiO2-Al2O3 & Ni-Al2O3 composite layers coatings evaluated using microscratch testing. International Journal of Current Engineering and Technology, 5, 704- 707, 2015.
  • Promphet, N., Rattanawaleedirojn, P., & Rodthongkum, N. (2017): Electroless NiP-TiO2 sol-RGO: A smart coating for enhanced corrosion resistance and conductivity of steel. Surface and Coatings Technology, 325, 604–610. doi:10.1016/j.surfcoat.2017.07.018
  • Ru, J., Jia, Y., Jiang, Y., Feng, J., Zhou, R., Hua, Y., & Wang, D. (2017): Modification of ZTA particles with Ni coating by electroless deposition. Surface Engineering , 33, 353–361. doi:10.1080/02670844.2016.1248119
  • Sahu, G. & Tarr, M. A. (2013): Improved performance of three-dimensional Ni–TiO2 core–shell nanowire photoanodes in dye-sensitized solar cells. MRS Communications, 3, 199–205. doi:10.1557/mrc.2013.42
  • Soares, M. E., Soares, P., Souza, P. R., Souza, R. M., & Torres, R. D. (2017): The effect of nitriding on adhesion and mechanical properties of electroless Ni–P coating on AISI 4140 steel. Surface Engineering, 33, 116–121. doi:10.1080/02670844.2016.1148831
  • Suiyuan, C., Ying, S., Hong, F., Jing, L., Changsheng, L., & Kai, S. (2012): Synthesis of Ni-P-PTFE-nano-Al2O3 composite plating coating on 45 steel by electroless plating. Journal of Composite Materials, 46, 1405–1416. doi:10.1177/0021998311420312
  • Takeda, E., Todoroki, N., Kitamoto, Y., Abe, M., Inoue, M., Fujii, T., & Arai, K. I. (2000): Faraday effect enhancement in Co–ferrite layer incorporated into one-dimensional photonic crystal working as a Fabry–Pérot resonator. Journal of Applied Physics, 87, 6782–6784. doi:10.1063/1.372840
  • Xu, Y., Zhou, M., Wen, L., Wang, C., Zhao, H., Mi, Y., & Lei, Y. (2015): Highly ordered three-dimensional Ni-TiO2 nanoarrays as sodium ion battery anodes. Chemistry of Materials, 27, 4274–4280. doi:10.1021/acs.chemmater.5b00633
  • Yongfeng, L., Limin, Z., Zhankui, W., Lijie, M., Jianxiu, S., Chang, L., & MingChao, J. (2017): Ni-P TiO2 nanoparticle composite formed by chemical plating: Deposition rate and corrosion resistance. International Journal of Electrochemical Science, 12, 3385–3397. doi: 10.20964/2017.04.41
  • Zou, G., Cao, M., Lin, H., Jin, H., Kang, Y., & Chen, Y. (2006): Nickel layer deposition on SiC nanoparticles by simple electroless plating and its dielectric behaviors. Powder Technology, 168, 84–88. doi:10.1016/j.powtec.2006.07.002
  • Ranganatha, S., Venkatesha, T. V., & Vathsala, K. (2010): Development of electroless Ni–Zn–P/nano-TiO2 composite coatings and their properties. Applied Surface Science, 256, 7377–7383. doi:10.1016/j.apsusc.2010.05.076
Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Burcu Didem Çorbacıoğlu

Yayımlanma Tarihi 31 Ocak 2019
Gönderilme Tarihi 26 Şubat 2018
Yayımlandığı Sayı Yıl 2019 Cilt: 11 Sayı: 1

Kaynak Göster

APA Çorbacıoğlu, B. D. (2019). Ni-P-Acetylacetonate-TiO2 Composite Plating with Electroless Plating: Plating Parameters and Corrosion Resistance. International Journal of Engineering Research and Development, 11(1), 192-199. https://doi.org/10.29137/umagd.398895
Tüm hakları saklıdır. Kırıkkale Üniversitesi, Mühendislik Fakültesi.