Experimental analysis on cutting fluid dispersed with silver nano particles

Saravanakumar, N.; Prabu, L. Nelson; Karthik, M.; Rajamanickam, A. T.

doi:10.1007/s12206-013-1192-6

Cited by 66 publications

(30 citation statements)

References 16 publications

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“…Experiments were performed with optimal settings (A3B3C1D3) known from Table 7 as nanofluid with MQL, cutting speed = 1700 m/ min, feed = 0.03 mm/min and depth of cut = 1.5 mm. Nanofluids exhibit outstanding thermal conductivity due to addition of silver nanoparticles [42]. Hence, a rise in thermal conductivity is observed which improves the heat-carrying capability of nanofluids; therefore, a decrease in temperature is noticed [32].…”

Section: Cutting Temperaturementioning

confidence: 99%

“…The authors noticed nanofluids provided a way to minimize temperature, force and surface roughness of the work material. Saravanakumar et al [42] noticed a decrease in cutting force, cutting temperature and surface roughness due to excellent thermal properties produced by silver nanofluids in turning process. Pervaiz et al [37] stated that surface roughness, tool wear and cutting force were reduced under minimum quantity lubrication during turning on titanium alloys.…”

Section: Introductionmentioning

confidence: 99%

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Performance of silver nanofluids with minimum quantity lubrication in turning on titanium: a phase to green manufacturing

Anandan

Babu²,

Muthukrishnan

et al. 2020

J Braz. Soc. Mech. Sci. Eng.

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Nowadays industries are looking forward for a sustainable manufacturing. Nanofluid with minimum quantity lubrication is one technology in the areas of green manufacturing, which minimizes the pollution caused to the environments. The aim of this work was to examine the influence of silver nanoparticles-based cutting fluid with minimum quantity lubrication in turning on titanium (grade 2) by changing the environmental conditions. Taguchi's L 27 orthogonal array has been selected to execute the experimental trials. The responses considered are surface roughness, temperature and tool wear. The process parameters selected for this analysis were environment, cutting speed, feed and depth of cut. The principal component analysis was used to determine the optimal conditions in turning parameters. It was noticed that environment is the key parameter in defining the responses. Under optimal conditions, the surface roughness has been decreased by 89%, temperature has been reduced by 44% and wear on the tool has also been reduced. The tool wear and chip morphology were reviewed through scanning electron microscope for a complete study.

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Section: Cutting Temperaturementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Performance of silver nanofluids with minimum quantity lubrication in turning on titanium: a phase to green manufacturing

Anandan

Babu²,

Muthukrishnan

et al. 2020

J Braz. Soc. Mech. Sci. Eng.

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“…Kumar et al [161] investigated the influence of silver nanoparticle-enriched cutting fluid. During the experiment, it was found that addition of silver nano-sized particles enhances thermal properties and frictional properties of the nanofluid.…”

Section: Turning Processmentioning

confidence: 99%

Emerging application of nanoparticle-enriched cutting fluid in metal removal processes: a review

Singh

Dixit

Mandal

et al. 2017

J Braz. Soc. Mech. Sci. Eng.

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In metal removal processes, the role of cooling and lubricating fluid is very crucial for improving the performance of machining. When metallic and non-metallic nanoparticles (less than 100 nm) are added to the base fluid, it is termed as a nanofluid. Due to excellent heat-carrying capacity, lubrication and rheological properties, nanofluids have gained immense importance for growing research activities. Researchers are also exploring synthesis and newer application of nanofluids. In the process, scientists are trying to develop new types of nano-cutting fluids, which are economic and eco-friendly. In this connection, investigations are also underway to find out possible mechanisms for improving cooling and lubricating properties of nanofluids. This paper presents a summary of published literature on the application of nano-enriched cutting fluid in various conventional metal removal processes, such as turning, milling, drilling and grinding. This paper also discusses the effects of different nano-enriched cutting fluids on various metal removal processes and factors influencing their process performance.

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“…While applying nanofluid as coolant, the quality of machining surface is better than dry condition or any other types of conventional fluids [29]. When it is dry, due to lack of cutting fluid, the wear of cutting edge appears soon, so the process will be (rougher) and the (Ra) generated on the metal surface will be high (Figure 1) [30].…”

Section: A Surface Roughnessmentioning

confidence: 99%

Use of Nano Cutting Fluid in Machining

Tosun¹,

Rostam²,

Rasul³

2016

Fourth International Conference on Advances in Mechanical and Automation Engineering - MAE 2016

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Nano cutting fluids are the mixture of conventional cutting fluid and nanoparticles. Addition of the nanoparticles can alter wettability and lubricating properties. This paper presents a comprehensive review of published research works on the use of nano fluids in machining processes. Nano cutting fluid plays an important role in minimizing production time, cost and energy in different machining operations. The study covers the classification of nano fluids and their effect on both workpiece and cutting tools including surface roughness, tool wear and cutting force has been explained. As a result, the paper presents a roadmap for the researchers and practitioners during the utilization of nano cutting fluids in machining processes.

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Experimental analysis on cutting fluid dispersed with silver nano particles

Cited by 66 publications

References 16 publications

Performance of silver nanofluids with minimum quantity lubrication in turning on titanium: a phase to green manufacturing

Performance of silver nanofluids with minimum quantity lubrication in turning on titanium: a phase to green manufacturing

Emerging application of nanoparticle-enriched cutting fluid in metal removal processes: a review

Use of Nano Cutting Fluid in Machining

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