Animesh Bain scite author profile

Animesh Bain

5Publications

3Citation Statements Received

7Citation Statements Given

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Institute of Engineering

Publications

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Structure and Topography Modifications of Treated AISI 316LN Stainless Steel Surfaces after Friction in Dry Sliding Contact by Case Hardening Process

Gandhi¹,

Bain²,

Rohith³

et al. 2020

E3S Web Conf.

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Austenitic stainless is having corrosion resistance property, but certain mechanical applications require improved resistance to wear, inferior cavitation, susceptibility to sensitization. These steels have numerous favourable circumstances for great cryogenic - properties, anti-corrosion, and bio-compatibility. So these steels have a broad application in low temperature innovation, saltwater applications, nourishment industry, bio-medicine, petro-chemical handling, and so forth when alloyed with nitrogen, austenitic treated steels has a progressively steady austenite structure, better mechanical properties and better wear opposition, which has animated extraordinary enthusiasm for this exploration work. Many surface hardening techniques are available, the best surface modification technique is chosen for improved service performance. Surface engineering is a technique to alter the surface of a material by mechanical or microchemical method without affecting the material properties. The alterations are done on the surfaces subjected to the liquid nitriding process to produce a hardened surface. Chosen for this research workbased on their wide application, the wear behaviour of AISI 316LN stainless steels was investigated. Of the various surface hardening techniques available, nitriding is chosen, so that these nitrogen gets penetrated into the material, in which hard iron chromium nitrides are formed at the surface level. AISI 316LN specimens were subjected to salt bath nitriding process. The specimens were nitrided to 60 minutes, 120 minutes and 180 minutes respectively. The specimens were undergone with wear tests by standardized tribiological wear machine and finally the metallographic studies were made.

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Wear Characteristics of AISI 310 Grade Stainless Steel Material by Carbonitriding Process

Vamshi¹,

Bain²,

Sreekanth³

et al. 2020

E3S Web Conf.

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The investigation on the microstructure and mechanical behaviour of steel AISI 310 has been carried out during a Carbonitriding process aiming to improve the wear performance. The comparison study was made to treated specimens with untreated sample. Carbonitriding is a viable technique to enhance the wear resistance of the stainless steel material. The present study focused in the direction of investigating the effect of microstructure, hardness and wear resistance of AISI 310 stainless steel material. In carbonitriding process the case depth was found to be from 13, 16.5 and 19 Microns which is treated 2 hrs, 4hrs and 6 hrs respectively. The combination action of strong adhesion, abrasion and severe plastic deformation are the primary reasons for the continuous material loss in the untreated specimens during testing. The Optical microscope, SEM analysis and wear test are conducted to find out the various results.

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Examination on dry sliding wear behavior of AISI 304 stainless steel treated with salt bath nitriding process

Gandhi¹,

Bain²,

Prasanna³

et al. 2021

Materials Today: Proceedings

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Wear and microstructure analysis on AISI420 stainless steel by annealing & tempering process under dry sliding conditions

Bain

Reddy

Jagadeesan

et al. 2021

Advances in Materials and Processing Technologies

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Dry Sliding Wear Behavior of Austenitic Stainless Steel Material by Gas Nitriding Process

Sree

Raguraman

Saranya³

et al. 2021

E3S Web Conf.

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In industries, components must operate under extreme conditions such as high load, speed, temperature and chemical environment. Materials are selected according to commercial availability, cost and their properties such as strength, hardness, etc. AISI 904L is a high-alloy stainless steel with low carbon content, poor surface hardness and wear characteristics. Many engineering failures are caused by fatigue, corrosion, and poor wear resistance, begins at the surface level. This causes cracks in the surface, reducing the material’s life. The surfaces of the materials were subjected to severe thermal, chemical, and shock loads. The selected AISI 904L materials for this work were subjected to gas nitriding process and processed with 3 different time parameters such as 12 hours, 18 hours and 24 hours respectively and named as GN1, GN2 and GN3. The treatments were done at a constant temperature of 650°C. Gas nitriding, in comparison to other nitriding processes such as plasma and liquid nitriding, provides good dimensional stability, reduced deformation, and uniform case depth regardless of the size and shape of the specimen. To analyze the wear properties, a pin on a disc machine is used. Finally, metallographic studies were performed by scanning electron microscopy.

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Animesh Bain

Structure and Topography Modifications of Treated AISI 316LN Stainless Steel Surfaces after Friction in Dry Sliding Contact by Case Hardening Process

Wear Characteristics of AISI 310 Grade Stainless Steel Material by Carbonitriding Process

Examination on dry sliding wear behavior of AISI 304 stainless steel treated with salt bath nitriding process

Wear and microstructure analysis on AISI420 stainless steel by annealing & tempering process under dry sliding conditions

Dry Sliding Wear Behavior of Austenitic Stainless Steel Material by Gas Nitriding Process

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