Add to ORKGThe paper aims at investigating the effect of lubrication-cooling condition in industrial finish face milling operations. The machining tests were performed under different cutting speeds, in dry and wet cutting conditions, on AISI 420 B stainless steel. The evolution of the tool wear and surface finish with cutting time have been monitored. The worn tools have been analysed by means of SEM and the results have been evaluated and discussed in detail. It was observed that the dry machining, as compared with wet cutting, allows the obtaining of lower tool wear values and a surface finish behaviour dependent on cutting time
Minimum quantity lubrication (MQL) is a sustainable method that has been efficiently applied to achi...
Stainless steels are a group of difficult to machine work materials. The difficulty in machining sta...
This study examines the effect of coolant condition on surface roughness of AISI 316L austenitic sta...
The paper aims at investigating the effect of lubrication-cooling condition in industrial finish fac...
Finish turning of AISI 420B stainless steel was widely investigated under dry, minimum quantity of l...
The effect of lubrication-cooling condition on surface roughness in finish face milling operations h...
The paper is focused on the effects produced by cutting operations on workpiece surface finish and t...
Cutting fluids (CFs) in machining operations help to remove the heat generated dur-ing cutting; to a...
Stainless steels are widely applied in corrosive environments requiring high mechanical strength. Th...
One of the leading environmental pollution sources related to machining industry is the massive amou...
This paper examines the performance of AlN/TiN coated carbide tool during milling of STAVAX® (modifi...
Surface roughness is a result of the cutting parameters such as: cutting speed, feed per tooth and t...
Most of the research works on the milling of stainless steel in the past were carried out at cutting...
Original scientific paper The paper presents the results of investigation of the influence of condit...
Stainless steels are a group of difficult to machine work materials. The difficulty in machining sta...
Minimum quantity lubrication (MQL) is a sustainable method that has been efficiently applied to achi...
Stainless steels are a group of difficult to machine work materials. The difficulty in machining sta...
This study examines the effect of coolant condition on surface roughness of AISI 316L austenitic sta...
The paper aims at investigating the effect of lubrication-cooling condition in industrial finish fac...
Finish turning of AISI 420B stainless steel was widely investigated under dry, minimum quantity of l...
The effect of lubrication-cooling condition on surface roughness in finish face milling operations h...
The paper is focused on the effects produced by cutting operations on workpiece surface finish and t...
Cutting fluids (CFs) in machining operations help to remove the heat generated dur-ing cutting; to a...
Stainless steels are widely applied in corrosive environments requiring high mechanical strength. Th...
One of the leading environmental pollution sources related to machining industry is the massive amou...
This paper examines the performance of AlN/TiN coated carbide tool during milling of STAVAX® (modifi...
Surface roughness is a result of the cutting parameters such as: cutting speed, feed per tooth and t...
Most of the research works on the milling of stainless steel in the past were carried out at cutting...
Original scientific paper The paper presents the results of investigation of the influence of condit...
Stainless steels are a group of difficult to machine work materials. The difficulty in machining sta...
Minimum quantity lubrication (MQL) is a sustainable method that has been efficiently applied to achi...
Stainless steels are a group of difficult to machine work materials. The difficulty in machining sta...
This study examines the effect of coolant condition on surface roughness of AISI 316L austenitic sta...