Study of solid particle erosion of thermal spray coated and uncoated cobalt based superalloy
Authors
-
,IN
M. S. Vinod kumar -
,INR. Suresh
-
,INN. Jegadeeswaran
DOI:
https://doi.org/10.18311/jmmf/2021/30091Keywords:
Erosion, surface analysis, thermal spray coating, (WC-CO NiCrBSi), superco-605Abstract
Erosion resistance of turbine components can be improved using various thermal spray coatings techniques, in the present work HVOF spray coating technique is used to deposit tungsten carbide alloy powder composition (30%WC-CO+70% NiCrBSi) on cobalt based seperalloy Superco-605. The coating is characterized using scanning electron microscope (SEM). Solid particle erosion behaviour of coating is evaluated at 30o, 60o and 90o angle of impact at room temperature, silica sand of size 150?m is used as erodent, particle feed rate maintained is 4.8gm/min, rate of erosion and steady state volumetric erosion rate is determined and results are plotted, from the plots it is indicating that the rate of erosion for coated samples are higher compared to uncoated samples, and there is higher erosion rate at 90o angle of impact and tends to be low for impact angle of 30o indicating brittle mode of erosion.
Downloads
Metrics
Downloads
Published
How to Cite
Issue
Section
References
Rajendran, R. (2012): Gas turbine coatings–An overview. Engineering Failure Analysis, 26, 355-369.
Manjunatha, M., Kulkarni, R. S., & Krishna, M. (2014): Investigation of HVOF thermal sprayed Cr3C2-NiCr cermet carbide coatings on erosive performance of AISI 316 molybdenum steel. Procedia Materials Science, 5, 622-629.
Suresh, R. and Jegadeeswaran, N. (2020): Study of solid particle erosion behaviour of HVOF spray coated superco-605 superalloy. Materials Today: Proceedings.
Zhang, H., Dong, X. and Chen, S. (2017): Solid particle erosion-wear behaviour of Cr3C2–NiCr coating on Nibased superalloy. Advances in Mechanical Engineering, 9(3), 1687814017694580.
Singh, P. K. and Mishra, S. B. (2020): Erosion performance of detonation gun deposited WC–12Co, Stellite 6 and Stellite 21 coatings on SAE213-T12 steel. Tribology-Materials, Surfaces and Interfaces, 14(4), 229-239.
Sidhu, H. S., Sidhu, B. S. and Prakash, S. (2007): Solid particle erosion of HVOF sprayed NiCr and Stellite-6 coatings. Surface and Coatings Technology, 202(2), 232-238.
Shibe, V. and Chawla, V. (2019): Erosion Studies of DGun- Sprayed WC-12% Co, Cr 3 C 2-25% NiCr and Al 2 O 3-13% TiO 2 Coatings on ASTM A36 Steel. Journal of Thermal Spray Technology, 28(8), 2015-2028.
Mishra, S. B., Prakash, S. and Chandra, K. (2006): Studies on erosion behaviour of plasma sprayed coatings on a Ni-based superalloy. Wear, 260(4-5), 422- 432
Patel, M., Patel, D., Sekar, S., Tailor, P. B. and Ramana, P. V. (2016): Study of solid particle erosion behaviour of SS 304 at room temperature. Procedia Technology, 23, 288-295
Kaplan, M., Uyaner, M., Avcu, E., Yildiran Avcu, Y., & Karaoglanli, A. C. (2019): Solid particle erosion behaviour of thermal barrier coatings produced by atmospheric plasma spray technique. Mechanics of Advanced Materials and Structures, 26(19), 1606-1612.
Nagaraj, T. A., Babu, S. K., Vallimanalan, A., Srinivasan, S. A., & Mahendran, R. (2019): Solid Particle Erosion Behaviour of Cast CY5SnBiM at Room Temperature. Journal of The Institution of Engineers (India): Series D, 100(1), 91-96.
