Extensive investigations on built-up edge (BUE) formation in machining have been conducted in the past. However, very little effort has been made to quantitatively predict the size of the BUE and its effect on chip flow and cutting forces under different machining conditions. This prediction is important because it is the key to predicting the fluctuation of cutting forces and provides better rationale for explaining various machining phenomena associated with BUE formation. A new slip-line model for machining with BUE formation and its associated hodograph are proposed in this paper. Consisting of four slip-line sub-regions, the new slip-line model meets both the stress equilibrium and velocity requirements of material flow. The new model ...
In recent papers it has been suggested that over part of the toolchip contact zone the chip does no...
In-situ strain measurements with high energy synchrotron radiation during orthogonal cutting of AISI...
Literature in Manufacturing Research was found wanting of information pertaining to machining forces...
Built-up edge (BUE) formation in machining maintains a profound effect on the cutting operation, suc...
The manufacturing of miniaturized components is indispensable in modern industries, where the uncut ...
International audienceThis chapter deals with quantitative analysis of the chip formation and materi...
In micromachining, the uncut chip thickness is less than the cutting tool edge radius, which results...
hedge hone! and insert to insert. Orthogonal cutting tests presented in that paper showed that this ...
International audienceThis paper presents experimental study on conditions for built-up-edge (BUE) f...
Thesis (Ph.D.)--Wichita State University, College of Engineering, Dept. of Industrial EngineeringThi...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
AbstractA Johnson-Cook type damage law, with pressure and temperature coefficients from published li...
This paper presents the results of investigating the effect of tool geometry on the formation of bui...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
AbstractMechanical micromachining is a very flexible and widely exploited process, but its knowledge...
In recent papers it has been suggested that over part of the toolchip contact zone the chip does no...
In-situ strain measurements with high energy synchrotron radiation during orthogonal cutting of AISI...
Literature in Manufacturing Research was found wanting of information pertaining to machining forces...
Built-up edge (BUE) formation in machining maintains a profound effect on the cutting operation, suc...
The manufacturing of miniaturized components is indispensable in modern industries, where the uncut ...
International audienceThis chapter deals with quantitative analysis of the chip formation and materi...
In micromachining, the uncut chip thickness is less than the cutting tool edge radius, which results...
hedge hone! and insert to insert. Orthogonal cutting tests presented in that paper showed that this ...
International audienceThis paper presents experimental study on conditions for built-up-edge (BUE) f...
Thesis (Ph.D.)--Wichita State University, College of Engineering, Dept. of Industrial EngineeringThi...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
AbstractA Johnson-Cook type damage law, with pressure and temperature coefficients from published li...
This paper presents the results of investigating the effect of tool geometry on the formation of bui...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
AbstractMechanical micromachining is a very flexible and widely exploited process, but its knowledge...
In recent papers it has been suggested that over part of the toolchip contact zone the chip does no...
In-situ strain measurements with high energy synchrotron radiation during orthogonal cutting of AISI...
Literature in Manufacturing Research was found wanting of information pertaining to machining forces...