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Cold Spray Coating for Corrosive Conditions

  • Harminder Singh ChouhanEmail author
Conference paper
  • 694 Downloads
Part of the The Minerals, Metals & Materials Series book series (MMMS)

Abstract

Corrosive degradation of materials is an economic and environmental issue. It is not possible to eliminate this problem; however, there is a need to work on the ways to slow down this process of material failure. The present study is related to the surface modification of the material by cold spray technique for applications in highly corrosive waste incinerator conditions. Primary requirement of waste incinerators is waste management for environment protection; however, the environment is highly corrosive resulting in corrosive failure of the materials. Cold spray coating microstructure is tested in this study to test its suitability for corrosive conditions. It is estimated in this study that cold spray modified alloy may increase the working efficiency of the materials in highly corrosive environmental conditions.

Keywords

Cold spray Coating Corrosion Incinerator 

References

  1. 1.
    Irissou E, Legoux JG, Ryabinin AN, Jodoin B, Christian M (2008) Review on cold spray process and technology: part i—intellectual property. J Therm Spray Technol 17(4):495–516CrossRefGoogle Scholar
  2. 2.
    Alkhimov AP, Kosarev VF, Nesterovich NI, Papyrin AN (1991) Method for deposition of coatings, SU1618778 (year of priority 1986)Google Scholar
  3. 3.
    Singh H, Khosla H (2017) Comparative evaluation of performance of cold sprayed and bare N06601 superalloy in medical waste incinerator at 900 °C. Mater Chem Phys 200:57–69Google Scholar
  4. 4.
    Singh H, Khosla H, Walia GS, Sidhu TS, Kalsi SBS, Karthikeyan J (2018) Characteristic study of cold sprayed N06601 superalloy surface. Surf Eng 34(5):369–379Google Scholar
  5. 5.
    Singh H, Khosla H, Walia GS, Sidhu TS, Kalsi SBS, Karthikeyan J (2018) Characteristic study of N07718 superalloy surface prepared by cold spray. Mater Manuf Processes 33(2):140–148Google Scholar
  6. 6.
    Lee HY, Jung SH, Lee SY, You YH, Ko KH (2005) Correlation between Al2O3 particles and interface of Al–Al2O3 coatings by cold spray. Appl Surf Sci 252(5):1891–1898Google Scholar
  7. 7.
    Ning X-J, Kim J-H, Kim H-J, Lee C (2009) Characteristics and heat treatment of cold-sprayed Al–Sn binary alloy coatings. Appl Surf Sci 255:3933–3939CrossRefGoogle Scholar
  8. 8.
    Singh H, Sidhu TS, Karthikeyan J, Kalsi SBS (2015) Evaluation of characteristics and behavior of cold sprayed Ni–20Cr coating at elevated temperature in waste incinerator plant. Surf Coat Technol 261:375–384CrossRefGoogle Scholar
  9. 9.
    Kalsi SBS, Sidhu TS, Singh H (2014) Performance of cold spray coatings on Fe-based superalloy in Na2SO4–NaCl environment at 900 °C. Surf Coat Technol 240:456–463CrossRefGoogle Scholar
  10. 10.
    Singh H (2015) Fabrication of high-pressure cold-sprayed coating on Ni-based superalloy for high temperature corrosive conditions. JOM 67(11):2564–2572CrossRefGoogle Scholar

Copyright information

© The Minerals, Metals & Materials Society 2020

Authors and Affiliations

  1. 1.Guru Nanak Dev UniversityAmritsarIndia

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