Add to ORKGThis paper presents an efficient method of optimisation of surface roughness in end milling of Inconel 718 using TiAlN coated inserts under dry conditions by coupling response surface methodology (RSM) with genetic algorithm (GA). RSM has been utilized to develop an efficient mathematical model for surface roughness in terms of cutting parameters. For this purpose, a number of machining experiments based on statistical central composite design of experiments method are carried out. Then the developed RS model is further interfaced with the GA to optimize the cutting conditions for achieving minimum surface roughness. GA improved the surface roughness by about 12%
This project deals with the effects of three parameters chosen on the surface texture of Aluminum 60...
AbstractThe stability of the machine tool mainly depend on the cutting force in machining process. I...
This article offers experimental research into getting the lowest possible roughness on the surface ...
This paper presents an efficient method of optimisation of surface roughness in end milling of Incon...
In finishing end milling, not only good accuracy but also good roughness levels must be achieved. Th...
AbstractIn the present study, response surface methodology has been applied to determine the optimum...
AbstractIn the present study, response surface methodology has been applied to determine the optimum...
Titanium alloys are being widely used in the aerospace, biomedical and automotive industries because...
Machining of hard materials at high cutting speeds produces high temperatures in the cutting zone, ...
Machining of hard materials at high cutting speeds produces high temperatures in the cutting zone, ...
In this study, response surface method (RSM), desirability function (DF) and genetic algorithm (GA) ...
The present work is focused on the optimization of process parameters in cylindrical surface grindin...
The aim of present research focuses on the prediction of machining parameters that improve the quali...
The aim of this study is to evaluate the impact of factors such as cutting speed, feed rate, and dep...
Surface roughness is one of the most important requirements of the finished products in machining pr...
This project deals with the effects of three parameters chosen on the surface texture of Aluminum 60...
AbstractThe stability of the machine tool mainly depend on the cutting force in machining process. I...
This article offers experimental research into getting the lowest possible roughness on the surface ...
This paper presents an efficient method of optimisation of surface roughness in end milling of Incon...
In finishing end milling, not only good accuracy but also good roughness levels must be achieved. Th...
AbstractIn the present study, response surface methodology has been applied to determine the optimum...
AbstractIn the present study, response surface methodology has been applied to determine the optimum...
Titanium alloys are being widely used in the aerospace, biomedical and automotive industries because...
Machining of hard materials at high cutting speeds produces high temperatures in the cutting zone, ...
Machining of hard materials at high cutting speeds produces high temperatures in the cutting zone, ...
In this study, response surface method (RSM), desirability function (DF) and genetic algorithm (GA) ...
The present work is focused on the optimization of process parameters in cylindrical surface grindin...
The aim of present research focuses on the prediction of machining parameters that improve the quali...
The aim of this study is to evaluate the impact of factors such as cutting speed, feed rate, and dep...
Surface roughness is one of the most important requirements of the finished products in machining pr...
This project deals with the effects of three parameters chosen on the surface texture of Aluminum 60...
AbstractThe stability of the machine tool mainly depend on the cutting force in machining process. I...
This article offers experimental research into getting the lowest possible roughness on the surface ...