1N Khanna, P Shah, and Chetan: 2020, Comparative analysis of dry, flood, MQL and cryogenic CO2 techniques during the machining of 15-5-PH SS alloy, Tribology international, 146: 106196.
2Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2019, Comparison between sustainable cryogenic techniques and nano-MQL cooling mode in turning of nickel-based alloy, Journal of Cleaner Production, 231:1036-1049.
3Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2018, Specific cutting energy modeling for turning nickel-based Nimonic 90 alloy under MQL condition, International Journal of Mechanical Sciences, 146-147:25-38.
4Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2017, Performance evaluation of deep cryogenic processed carbide inserts during dry turning of Nimonic 90 aerospace grade alloy, Tribology International, 115:397-408.
5Bikash Behera, Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2017, Spreadability studies of metal working fluids on tool surface and its impact on minimum amount cooling and lubrication turning, Journal of Materials Processing Technology, 244: 1-16.
6Chetan, Bikash Behera, Sudarsan Ghosh, and P Venkateswara Rao: 2016, Application of nanofluids during minimum quantity lubrication: A case study in turning process, Tribology International, 101:234-246.
7Chetan, Bikash Behera, Sudarsan Ghosh, and P Venkateswara Rao: 2016, Wear behavior of PVD TiN coated carbide inserts during machining of Nimonic 90 and Ti6Al4V superalloys under dry and MQL conditions, Ceramic International, 42:14873-14885.
8Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2016, Environment friendly machining of Ni–Cr–Co based super alloy using different sustainable techniques, Materials and Manufacturing Processes, 31(7): 852- 859.
9Chetan, Sudarsan Ghosh, and P Venkateswara Rao: 2015, Application of sustainable techniques in metal cutting for enhanced machinability: a review, Journal of Cleaner Production, 100: 17- 34.
