Exploring wear resistance: Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel

Vikrant Singh; Samandeep Kaur; Vijay Kumar; Anuj Bansal; Anil Kumar Singla; Sachin Jha

doi:10.1177/09544062241262257

Exploring wear resistance: Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel

Vikrant Singh
, Samandeep Kaur
, Vijay Kumar
, Anuj Bansal^*
, Anil Kumar Singla
, Sachin Jha

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

This study investigated the performance of High-Velocity Oxygen Fuel (HVOF)-sprayed Titanium Carbide (TiC) and TiC + 50C (50%TiC + 50%CoNi) coatings on SS316 steel under three-body abrasion conditions. The microstructural analysis revealed a homogeneous distribution of TiC particles within the TiC coatings, while the TiC + 50C coatings exhibited a more complex microstructure due to the presence of Co-Ni alloy. Mechanical testing demonstrated the superior microhardness of TiC coatings compared to the SS316 substrate, suggesting enhanced wear resistance. Slurry abrasion tests indicated reduced mass loss rates for both TiC and TiC + 50C coatings compared to uncoated SS316 steel, with TiC coatings exhibiting superior resistance to abrasive wear. Post-abrasion examination revealed distinct wear patterns, including abrasive chipping, plowing marks, crater formation, wear traces, and surface ruggedness.

Original language	English
Pages (from-to)	10222-10236
Number of pages	15
Journal	Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
Volume	238
Issue number	20
DOIs	https://doi.org/10.1177/09544062241262257
State	Published - Oct 2024

Bibliographical note

Publisher Copyright:
© IMechE 2024.

Keywords

Abrasion
CoNi
HVOF
TiC
TiC + 50C

ASJC Scopus subject areas

Mechanical Engineering

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10.1177/09544062241262257

Cite this

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title = "Exploring wear resistance: Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel",

abstract = "This study investigated the performance of High-Velocity Oxygen Fuel (HVOF)-sprayed Titanium Carbide (TiC) and TiC + 50C (50\%TiC + 50\%CoNi) coatings on SS316 steel under three-body abrasion conditions. The microstructural analysis revealed a homogeneous distribution of TiC particles within the TiC coatings, while the TiC + 50C coatings exhibited a more complex microstructure due to the presence of Co-Ni alloy. Mechanical testing demonstrated the superior microhardness of TiC coatings compared to the SS316 substrate, suggesting enhanced wear resistance. Slurry abrasion tests indicated reduced mass loss rates for both TiC and TiC + 50C coatings compared to uncoated SS316 steel, with TiC coatings exhibiting superior resistance to abrasive wear. Post-abrasion examination revealed distinct wear patterns, including abrasive chipping, plowing marks, crater formation, wear traces, and surface ruggedness.",

keywords = "Abrasion, CoNi, HVOF, TiC, TiC + 50C",

author = "Vikrant Singh and Samandeep Kaur and Vijay Kumar and Anuj Bansal and Singla, \{Anil Kumar\} and Sachin Jha",

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doi = "10.1177/09544062241262257",

language = "English",

volume = "238",

pages = "10222--10236",

journal = "Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science",

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Exploring wear resistance: Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel. / Singh, Vikrant; Kaur, Samandeep; Kumar, Vijay et al.
In: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 238, No. 20, 10.2024, p. 10222-10236.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Exploring wear resistance

T2 - Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel

AU - Singh, Vikrant

AU - Kaur, Samandeep

AU - Kumar, Vijay

AU - Bansal, Anuj

AU - Singla, Anil Kumar

AU - Jha, Sachin

N1 - Publisher Copyright: © IMechE 2024.

PY - 2024/10

Y1 - 2024/10

N2 - This study investigated the performance of High-Velocity Oxygen Fuel (HVOF)-sprayed Titanium Carbide (TiC) and TiC + 50C (50%TiC + 50%CoNi) coatings on SS316 steel under three-body abrasion conditions. The microstructural analysis revealed a homogeneous distribution of TiC particles within the TiC coatings, while the TiC + 50C coatings exhibited a more complex microstructure due to the presence of Co-Ni alloy. Mechanical testing demonstrated the superior microhardness of TiC coatings compared to the SS316 substrate, suggesting enhanced wear resistance. Slurry abrasion tests indicated reduced mass loss rates for both TiC and TiC + 50C coatings compared to uncoated SS316 steel, with TiC coatings exhibiting superior resistance to abrasive wear. Post-abrasion examination revealed distinct wear patterns, including abrasive chipping, plowing marks, crater formation, wear traces, and surface ruggedness.

AB - This study investigated the performance of High-Velocity Oxygen Fuel (HVOF)-sprayed Titanium Carbide (TiC) and TiC + 50C (50%TiC + 50%CoNi) coatings on SS316 steel under three-body abrasion conditions. The microstructural analysis revealed a homogeneous distribution of TiC particles within the TiC coatings, while the TiC + 50C coatings exhibited a more complex microstructure due to the presence of Co-Ni alloy. Mechanical testing demonstrated the superior microhardness of TiC coatings compared to the SS316 substrate, suggesting enhanced wear resistance. Slurry abrasion tests indicated reduced mass loss rates for both TiC and TiC + 50C coatings compared to uncoated SS316 steel, with TiC coatings exhibiting superior resistance to abrasive wear. Post-abrasion examination revealed distinct wear patterns, including abrasive chipping, plowing marks, crater formation, wear traces, and surface ruggedness.

KW - Abrasion

KW - CoNi

KW - HVOF

KW - TiC

KW - TiC + 50C

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DO - 10.1177/09544062241262257

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IS - 20

ER -

Exploring wear resistance: Three-body abrasion evaluation of HVOF-sprayed TiC and CoNi coatings on SS316 steel

Abstract

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Keywords

ASJC Scopus subject areas

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