Investigation of corrosion behavior of Cenosphere reinforced iron based composite coatings

Shanthala Kollur; ShivaPrakash S; Jasti Surendra; G.S. Pradeep Kumar; R. Suresh Kumar; C. Durga Prasad; Pavan Kumar B K; Sandeep Kore; Nusrathulla M

Results in Surfaces and Interfaces (Oct 2024)

Investigation of corrosion behavior of Cenosphere reinforced iron based composite coatings

Shanthala Kollur,
ShivaPrakash S,
Jasti Surendra,
G.S. Pradeep Kumar,
R. Suresh Kumar,
C. Durga Prasad,
Pavan Kumar B K,
Sandeep Kore,
Nusrathulla M

Affiliations

Shanthala Kollur: Department of Mechanical Engineering, RV Institute of Technology and Management, Bengaluru, 560076, Karnataka, India
ShivaPrakash S: Department of Mechanical Engineering. New Horizon College of Engineering, Bengaluru, 560103, India
Jasti Surendra: Department of Mechanical Engineering, Prasad V Potluri Siddhartha Institute of Technology, Kanuru, Vijayawada, India
G.S. Pradeep Kumar: Department of Mechanical and Automobile Engineering. CHRIST University, Bengaluru, 560074, India
R. Suresh Kumar: Department of Mechanical Engineering, BMS College of Engineering, Bengaluru, Karnataka, India
C. Durga Prasad: Department of Mechanical Engineering, RV Institute of Technology and Management, Bengaluru, 560076, Karnataka, India
Pavan Kumar B K: Department of Mechanical Engineering, Ballari Institute of Technology and Management, Ballari, Karnataka, India
Sandeep Kore: Department of Mechanical Engineering, Vishwakarma Institute of Technology, Pune, 411037, Maharashtra, India
Nusrathulla M: Department of Mechatronics Engineering, AMC Engineering College, Bengaluru, Karnataka, India

Journal volume & issue: Vol. 17
p. 100300

Abstract

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In the present study cenopshere was reinforced with FeCrNiC (Metco 42C) as matrix material and prepared four different feedstock powders such as FeCrNiC+0%Cenosphere, FeCrNiC+5%Cenosphere, FeCrNiC+10%Cenosphere and FeCrNiC+15%Cenosphere were coated by plasma spray technique on T22 substrate. Evaluation of the substrate and coatings potential under salt spray test was performed. Dense fog of 5% NaCl salt water was used to create a corrosive atmosphere within the chamber. The salt water's pH was kept constant at 6.5–7. The materials that underwent corrosion were examined using X-ray diffraction (XRD), and scanning electron microscopy (SEM). The FeCrNiC+15%Cenosphere and FeCrNiC+10%Cenosphere coatings exhibited reduced weight loss during a 168-h corrosion test compared to the FeCrNiC+5%Cenosphere, FeCrNiC coatings, and substrate. The excellent chemical stability and corrosion resistance of Cr23C6, SiO2, NiO, and Cr2O particles contribute to gradually avoid the formation of red rust on Fe-based coated samples with exposure approaches to 52 and 130 h.

Published in Results in Surfaces and Interfaces

ISSN: 2666-8459 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology: Chemical technology: Industrial electrochemistry
Website: https://www.journals.elsevier.com/results-in-surfaces-and-interfaces

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