This paper presents an investigation into the minimum quantity lubrication mode with Nano fluid during turning of titanium (TI6AL4V) alloy. In heavy cutting conditions, minimum quantity lubrication (MQL) has been observed, that, Nano-cutting fluids which have enrich thermal conductivity than base fluid, are begun to be used in MQL system. The addition of the required nano particle ratio to the base liquid is one of the most important issues that arise in this method. Therefore, this study aimed to find the optimum distribution rate of graphene nano particles having excellent properties and machining parameters. To do this, graphene nano particles were added to a vegetable-based cutting solution. Nano-cutting fluids were prepared in differen...
Titanium and its alloys are difficult to machine due to their high chemical reactivity and poor ther...
Cutting fluids used in the metal machining industry have exerted serious impacts on the environment ...
Minimum quantity lubrication (MQL) technologies using vegetable oil lubricants as cutting fluids hav...
Cutting fluids significantly improve machining efficiency due to their high contribution to cooling ...
Minimum Quantity Lubrication (MQL) technique obtained a significant attention in machining processes...
Since some deficiencies in mist lubri-cooling techniques i.e., minimum quantity lubrication (MQL) in...
Rapid wear progression of cutting insert associated with attainment of excessive tool-tip temperatur...
Nickel-based alloys are classified as difficult-to-cut metals due to their low thermal conductivity ...
Providing environmentally friendly conditions and optimizing energy consumption are two essential re...
The cutting fluids applied to the machining processes by the MQL process aim to reduce the machining...
A hybrid nanofluid (NF) with better thermal and tribological properties has been developed in this i...
The present paper addresses an ecological machining method in turning Hastelloy C 276 Nickel alloy u...
The main purpose of using cutting fluid during machining processes is to reduce the cutting temperat...
Machining difficult-to-cut materials is one of the increasingly concerned issues in the metalworking...
In any metal cutting machining operation, the cutting fluid plays important role by cooling the cutt...
Titanium and its alloys are difficult to machine due to their high chemical reactivity and poor ther...
Cutting fluids used in the metal machining industry have exerted serious impacts on the environment ...
Minimum quantity lubrication (MQL) technologies using vegetable oil lubricants as cutting fluids hav...
Cutting fluids significantly improve machining efficiency due to their high contribution to cooling ...
Minimum Quantity Lubrication (MQL) technique obtained a significant attention in machining processes...
Since some deficiencies in mist lubri-cooling techniques i.e., minimum quantity lubrication (MQL) in...
Rapid wear progression of cutting insert associated with attainment of excessive tool-tip temperatur...
Nickel-based alloys are classified as difficult-to-cut metals due to their low thermal conductivity ...
Providing environmentally friendly conditions and optimizing energy consumption are two essential re...
The cutting fluids applied to the machining processes by the MQL process aim to reduce the machining...
A hybrid nanofluid (NF) with better thermal and tribological properties has been developed in this i...
The present paper addresses an ecological machining method in turning Hastelloy C 276 Nickel alloy u...
The main purpose of using cutting fluid during machining processes is to reduce the cutting temperat...
Machining difficult-to-cut materials is one of the increasingly concerned issues in the metalworking...
In any metal cutting machining operation, the cutting fluid plays important role by cooling the cutt...
Titanium and its alloys are difficult to machine due to their high chemical reactivity and poor ther...
Cutting fluids used in the metal machining industry have exerted serious impacts on the environment ...
Minimum quantity lubrication (MQL) technologies using vegetable oil lubricants as cutting fluids hav...