Uncategorized Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties By aardco on Sunday, September 20, 2020 Publication date: January 2021Source: Tribology International, Volume 153Author(s): Prassan Shah, Ameya Gadkari, Akash Sharma, Alborz Shokrani, Navneet Khanna https://www.sciencedirect.com/science/article/pii/S0301679X20304242?dgcid=rss_sd_all Previous Post Next Post Related Posts Uncategorized Analysis of chip size distribution using image processing technology to estimate wear state of cylindrical grinding wheel Uncategorized Temperature-dependent tribological behavior of MoSx thin films synthesized by HiPIMS Uncategorized Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties
Uncategorized Analysis of chip size distribution using image processing technology to estimate wear state of cylindrical grinding wheel
Uncategorized Comparison of machining performance under MQL and ultra-high voltage EMQL conditions based on tribological properties