Orthogonal cutting experiments were carried out on steel at different feedrates and cutting speeds. During these experiments the chip temperatures were measured using an infrared camera. The applied technique allows us to determine the chip temperature distribution at the free side of the chip. From this distribution the shear plane temperature at the top of the chip as well as the uniform chip temperature can be found. A finite-difference model was developed to compute the interfacial temperature between chip and tool, using the temperature distribution measured at the top of the chip
Reliable information about tool temperature distribution is of central importance in metal cutting. ...
Includes bibliographical references (pages [62]-63)A finite element-based computational model is dev...
In the present investigation, a MerlinTM Mid InSb MWIR Camera is used to observe chip, tool and work...
Orthogonal cutting experiments were carried out on steel at different feedrates and cutting speeds. ...
Mastering of metal removal processes requires the understanding of the physical phenomenons involved...
The temperature knowledge is essential to understand and model the phenomena involved in metal cutti...
The results of a photographic technique for the determination of the complete temperature distributi...
The temperature at the tool-chip interface is a good estimator of the chip formation and the mechani...
In metal cutting, the magnitude of the temperature at the tool-chip interface is a function of the c...
International audienceDuring the cutting process, the temperature field in the chip is measured by u...
Dogu, Yahya/0000-0003-0474-2899WOS: 000234784000001In this study, a thermal analysis model is develo...
This paper presents an original method of predicting temperature distribution in orthogonal machinin...
The prediction of temperature distributions in the tool-chip-workpiece interface is not obvious with...
Metal cutting is a highly complex thermo-mechanical process. The knowledge of temperature in the chi...
The study of metal cutting process is primarily aimed at reducing production cost. One way of reduci...
Reliable information about tool temperature distribution is of central importance in metal cutting. ...
Includes bibliographical references (pages [62]-63)A finite element-based computational model is dev...
In the present investigation, a MerlinTM Mid InSb MWIR Camera is used to observe chip, tool and work...
Orthogonal cutting experiments were carried out on steel at different feedrates and cutting speeds. ...
Mastering of metal removal processes requires the understanding of the physical phenomenons involved...
The temperature knowledge is essential to understand and model the phenomena involved in metal cutti...
The results of a photographic technique for the determination of the complete temperature distributi...
The temperature at the tool-chip interface is a good estimator of the chip formation and the mechani...
In metal cutting, the magnitude of the temperature at the tool-chip interface is a function of the c...
International audienceDuring the cutting process, the temperature field in the chip is measured by u...
Dogu, Yahya/0000-0003-0474-2899WOS: 000234784000001In this study, a thermal analysis model is develo...
This paper presents an original method of predicting temperature distribution in orthogonal machinin...
The prediction of temperature distributions in the tool-chip-workpiece interface is not obvious with...
Metal cutting is a highly complex thermo-mechanical process. The knowledge of temperature in the chi...
The study of metal cutting process is primarily aimed at reducing production cost. One way of reduci...
Reliable information about tool temperature distribution is of central importance in metal cutting. ...
Includes bibliographical references (pages [62]-63)A finite element-based computational model is dev...
In the present investigation, a MerlinTM Mid InSb MWIR Camera is used to observe chip, tool and work...