Surface roughness and cutting forces are considered as important factors to determine machinability rate and the quality of product. A number of factors like cutting speed, feed rate, depth of cutting and tool noise radius influence the surface roughness and cutting forces in turning process. In this paper, an Artificial Neural Network (ANN) model was used to forecast surface roughness and cutting forces with related inputs, including cutting speed, feed rate, depth of cut and tool noise radius. The machined surface roughness and cutting force parameters related to input parameters are the outputs of the ANN model. In this work, 24 samples of experimental data were used to train the network. Moreover, eight other experimental tests were imp...
WOS: 000415695400013This contribution presents an approach for the modeling and prediction of surfac...
This paper presents the ANN model for predicting the surface roughness performance measure in the ma...
Magnesium alloys are widely used in aerospace vehicles and modern cars, due to their rapid machinabi...
The present study is focused to investigate the effect of the various machining input parameters suc...
Quality of surface roughness has a great impact on machine parts during their useful life. The machi...
Surface roughness, an indicator of surface quality, is one of the most specified customer requiremen...
In CNC milling process, proper setting of cutting parameter is important to obtain better surface r...
This research presents the effect of high cutting speed on the surface roughness in the end milling...
AbstractSurface roughness plays an important role in manufacturing process and is a factor of great ...
The paper presents an approach to solving the problem of modelling and prediction of surface roughne...
This proposed work deals with the development of surface roughness prediction model for turning of A...
In this present work, the important challenge is to manufacture high quality and low cost products w...
This thesis discuss the Optimization of surface roughness in milling using Artificial Neural Network...
Product surface quality material removal rate play a great role in the current manufacturing industr...
The former, which is defined as modeling of machining processes, is essential to provide the basic m...
WOS: 000415695400013This contribution presents an approach for the modeling and prediction of surfac...
This paper presents the ANN model for predicting the surface roughness performance measure in the ma...
Magnesium alloys are widely used in aerospace vehicles and modern cars, due to their rapid machinabi...
The present study is focused to investigate the effect of the various machining input parameters suc...
Quality of surface roughness has a great impact on machine parts during their useful life. The machi...
Surface roughness, an indicator of surface quality, is one of the most specified customer requiremen...
In CNC milling process, proper setting of cutting parameter is important to obtain better surface r...
This research presents the effect of high cutting speed on the surface roughness in the end milling...
AbstractSurface roughness plays an important role in manufacturing process and is a factor of great ...
The paper presents an approach to solving the problem of modelling and prediction of surface roughne...
This proposed work deals with the development of surface roughness prediction model for turning of A...
In this present work, the important challenge is to manufacture high quality and low cost products w...
This thesis discuss the Optimization of surface roughness in milling using Artificial Neural Network...
Product surface quality material removal rate play a great role in the current manufacturing industr...
The former, which is defined as modeling of machining processes, is essential to provide the basic m...
WOS: 000415695400013This contribution presents an approach for the modeling and prediction of surfac...
This paper presents the ANN model for predicting the surface roughness performance measure in the ma...
Magnesium alloys are widely used in aerospace vehicles and modern cars, due to their rapid machinabi...