Sliding Wear Investigation of Ni-based Coating for High-Temperature Application

Rukhande, Sanjay W.; Rathod, Walmik S.; Bhosale, Digvijay G.

doi:10.24874/ti.945.08.20.11

Cited by 7 publications

(2 citation statements)

References 48 publications

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“…They also investigated the effect of applied load and temperature of composite, as it is important condition for selecting a particular application for researchers. Rukhande and Rathod [10] developed a NiCrBSiFe powder coating composite and compared it with 316L stainless steel as counter surface. Coefficient of friction is 0.15-0.68 for 300 0 C to 700 0 C temperature.…”

Section: Introductionmentioning

confidence: 99%

Ni-Cr Based Self Lubricating Composite Performance for High Speed Engineering Application

K. Matsagar,

M. Shirsat,

B. Kushare

2024

Tribol. Ind.

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Developed High speed-rotating machinery is used in agriculture for various processes. This machinery runs using the tractor PTO operated at variable speed. Operating systems of machinery were depends on the skill of the driver. Due to jerks during operation and lack of maintenance such machinery gets fails. To increase the life of rotating components, Ni-Cr based self-lubricating composite bearings were developed and used for the actual application. Self-lubricating composite was tested under the different velocities of 3.14, 3.77, 4.71, and 6.28m/s up to a maximum of 8 Hours. The average wear rate of 7.2%MoS2 content composite is less than the other compositions of Ni-Cr-wt% of MoS2 self-lubricating composite. The result of the actual trial shows that the average wear rate of Ni-Cr- 7.2 wt%MoS2 at velocities 3.14m/s,3.77m/s,4.71m/s, and 6.28m/s is 5.74*10-9mm3/Nm, 6.09*10-9mm3/Nm, 6.30*10-9mm3/Nm, and 6.44*10-9mm3/Nm respectively.

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Section: Introductionmentioning

confidence: 99%

Ni-Cr Based Self Lubricating Composite Performance for High Speed Engineering Application

K. Matsagar,

M. Shirsat,

B. Kushare

2024

Tribol. Ind.

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“…The reference was the brazing alloy Ni-600, which is also used as a self-fluxing system in thermal spraying. The maximum operating temperature of such alloys is around 620 • C [28]. Due to the good high-temperature properties, further improvements are possible through the use of HEAs.…”

Section: Introductionmentioning

confidence: 99%

Non-Metallic Alloying Constituents to Develop a Wear-Resistant CrFeNi-BSiC High-Entropy Alloy for Surface Protective Coatings by Thermal Spraying and High-Speed Laser Metal Deposition

et al. 2023

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Compositional alterations to high-entropy alloys (HEAs) allow further evolution of these materials by adjusting their property profiles. This way, they can be used for coating technologies and surface-protection applications. In the present work, minor quantities of the non-metallic alloying constituents, BSiC, were added to the CrFeNi base system. The alloy development was carried out in an electric arc furnace in comparison with the nickel-based alloy Ni-600. With regard to the BSiC-free variant, the wear resistance can be significantly increased. The powder was manufactured by inert gas atomization and characterized, followed by processing via high-velocity oxy-fuel spraying (HVOF) and high velocity laser metal deposition (HS-LMD). Depending on the manufacturing conditions, the proportion and shape of the precipitates within the microstructure differ. Compared to both the reference system and the as-cast condition, the coating systems demonstrated comparable or improved resistance to wear. The evaluation of the process–structure–property relationships confirmed the great potential of developing load-adapted HEA systems using non-metallic alloy constituents in the field of surface engineering.

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Enhancing high-temperature wear resistance of plasma-sprayed NiCrBSi coatings with nanodiamond reinforcement

Grain,

Singh,

Maurya

et al. 2024

Diamond and Related Materials

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Sliding Wear Investigation of Ni-based Coating for High-Temperature Application

Cited by 7 publications

References 48 publications

Ni-Cr Based Self Lubricating Composite Performance for High Speed Engineering Application

Ni-Cr Based Self Lubricating Composite Performance for High Speed Engineering Application

Non-Metallic Alloying Constituents to Develop a Wear-Resistant CrFeNi-BSiC High-Entropy Alloy for Surface Protective Coatings by Thermal Spraying and High-Speed Laser Metal Deposition

Enhancing high-temperature wear resistance of plasma-sprayed NiCrBSi coatings with nanodiamond reinforcement

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