This study investigates the cutting forces induced during high-speed end milling of titanium alloy (Ti-6Al-4V ELI) as well as the surface quality of the milled surfaces. The high-speed machining was performed using carbide tool of coated and uncoated types at three cutting speeds of 200, 250, and 300 mm/min and two feed rates of 0.03 and 0.06 mm/tooth. Surface integrity was characterized in terms of surface roughness (Ra) and morphology. Cutting speed was found to be inversely proportional to the resultant cutting force at any cutting conditions. Cutting force in the X direction displayed higher sensitivity against cutting conditions. The results showed that feed rate is proportional to cutting force in X and Y directions regardless of tool...
Surface quality is one of the most critical restraints for determining cutting parameters and select...
M.Ing. (Mechanical Engineering)High strength alloys such as titanium are widely used within applicat...
In high-speed machining of titanium alloys, due to their difficult-to-cut characteristics, tool perf...
The surface quality generated when high speed dry end milling (HSDEM) Ti-6Al-4VELI titanium alloy wi...
Surface integrity is a key property in the functional performance of machined parts and assembled en...
The quality of surface finish after machining is one of the most important parameters in ensuring th...
AbstractTitanium alloys are widely used in aerospace industries, due to its high strength to weight ...
The objective of machining performance is to reduce operational costs and to increase the production...
Surface quality is one of the most critical restraints for determining cutting parameters and select...
Cutting tool geometry has a crucial effect on the machinability of hard-to-cut materials. These mate...
The quality of machined parts and the productivity of machining that leads to economic sustainabilit...
The techniques of High Speed Machining (HSM), while still in an initial stage of wide acceptance, h...
Current experimental studies have yielded that cutting speed, using carbide cutters, has no signific...
Titanium alloys are widely known as difficult to cut materials, especially at higher cutting speeds...
Titanium alloys are widely known as difficult to cut materials, especially at higher cutting speeds...
Surface quality is one of the most critical restraints for determining cutting parameters and select...
M.Ing. (Mechanical Engineering)High strength alloys such as titanium are widely used within applicat...
In high-speed machining of titanium alloys, due to their difficult-to-cut characteristics, tool perf...
The surface quality generated when high speed dry end milling (HSDEM) Ti-6Al-4VELI titanium alloy wi...
Surface integrity is a key property in the functional performance of machined parts and assembled en...
The quality of surface finish after machining is one of the most important parameters in ensuring th...
AbstractTitanium alloys are widely used in aerospace industries, due to its high strength to weight ...
The objective of machining performance is to reduce operational costs and to increase the production...
Surface quality is one of the most critical restraints for determining cutting parameters and select...
Cutting tool geometry has a crucial effect on the machinability of hard-to-cut materials. These mate...
The quality of machined parts and the productivity of machining that leads to economic sustainabilit...
The techniques of High Speed Machining (HSM), while still in an initial stage of wide acceptance, h...
Current experimental studies have yielded that cutting speed, using carbide cutters, has no signific...
Titanium alloys are widely known as difficult to cut materials, especially at higher cutting speeds...
Titanium alloys are widely known as difficult to cut materials, especially at higher cutting speeds...
Surface quality is one of the most critical restraints for determining cutting parameters and select...
M.Ing. (Mechanical Engineering)High strength alloys such as titanium are widely used within applicat...
In high-speed machining of titanium alloys, due to their difficult-to-cut characteristics, tool perf...