High Temperature Materials and Processes (Jun 2024)

Experimental investigation into machining performance of magnesium alloy AZ91D under dry, minimum quantity lubrication, and nano minimum quantity lubrication environments

  • Kumar Ajay,
  • Gill Simranpreet Singh,
  • Singh Gurpreet,
  • Sharma Shubham,
  • Dwivedi Shashi Prakash,
  • Mohammed Kahtan A.,
  • Sharma Kuldeep,
  • Kozak Dražan,
  • Hunjet Anica,
  • Abbas Mohamed

DOI
https://doi.org/10.1515/htmp-2022-0328
Journal volume & issue
Vol. 43, no. 1
pp. pp. 610 – 616

Abstract

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Due to its low density, magnesium is recognized as a lighter metal and it is favorable for frequent use in industries. It is used in aerospace, biomedical, automotive, and other industrial applications. Magnesium is a promising element that is vital for reducing emissions, improving efficiency, protecting the environment, and enhancing the machine economy. This study analyzes the influence of various cutting environments and parameters on the turning operation of magnesium base alloy (AZ91D). Aluminum 9% and Zinc 1% is the main constituent of AZ91D. The machining process was accomplished using dry, minimum quantity lubrication (MQL), and nano minimum quantity lubrication (NMQL) environments based on their influence on surface roughness (SR) and temperature. Under certain circumstances, it was observed that SR decreases with the increase in the cutting velocity (V c), feed rate, and depth of cut. During cutting of AZ91D in dry conditions, it is preferred to use a moderate speed. Higher temperature was recorded during dry conditions which can significantly reduce the life span of the tool. MQL and NMQL have reduced the cutting temperature by a margin of 25–40% compared to dry machining, thus improving tool life. NMQL has shown decent cooling results compared to other cooling systems.

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