The slip-line field methods are widely used in solving cutting problem;however, most of which were focused on the pressure-independent materials. In this work, a new slip-line field model for orthogonal cutting of pressure sensitive materials is developed. Analytical characterization for orthogonal cutting process is obtained, which can give the explicit expressions for the shear angle, cutting force, and chip thickness in terms of the tool geometry, the friction coefficients on the tool flat, and the internal friction angle of the materials. To investigate the effect of the material and cutting parameters on cutting process, the finite element simulation is performed as well. The comparisons between the shear angle and cutting force predic...
An analysis of the orthogonal metal cutting process is made which enables the shear angle to be cal...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
Despite the development of high performance finite element-based codes, the simulation of machining ...
The response of the tool–chip interface is characterized in the orthogonal cutting process by numeri...
Thesis (Ph.D.)--Wichita State University, College of Engineering, Dept. of Industrial EngineeringThi...
The elastic-plasticity mechanics are applied to analyze the friction between tool and chip. Accordin...
An orthogonal cutting model is developed using the finite deformation theory of continuum mechanics....
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
Abstract in Undetermined This study are focused on the deformation zones occurring in the work piece...
Most machining models consider the work piece material to exhibit rigid-plastic or, when taking into...
The slip-line field model developed by Waldorf [1] for the macroscale is suitable to predict cutting...
The orthogonal cutting of oil hardening tool steel O1 is simulated using a fully coupled thermomecha...
In this paper, a hybrid analytical-numerical approach is performed for the orthogonal cutting proces...
Literature in Manufacturing Research was found wanting of information pertaining to machining forces...
AbstractThis paper is aimed at providing a comprehensive analysis of the contact problem in orthogon...
An analysis of the orthogonal metal cutting process is made which enables the shear angle to be cal...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
Despite the development of high performance finite element-based codes, the simulation of machining ...
The response of the tool–chip interface is characterized in the orthogonal cutting process by numeri...
Thesis (Ph.D.)--Wichita State University, College of Engineering, Dept. of Industrial EngineeringThi...
The elastic-plasticity mechanics are applied to analyze the friction between tool and chip. Accordin...
An orthogonal cutting model is developed using the finite deformation theory of continuum mechanics....
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
Abstract in Undetermined This study are focused on the deformation zones occurring in the work piece...
Most machining models consider the work piece material to exhibit rigid-plastic or, when taking into...
The slip-line field model developed by Waldorf [1] for the macroscale is suitable to predict cutting...
The orthogonal cutting of oil hardening tool steel O1 is simulated using a fully coupled thermomecha...
In this paper, a hybrid analytical-numerical approach is performed for the orthogonal cutting proces...
Literature in Manufacturing Research was found wanting of information pertaining to machining forces...
AbstractThis paper is aimed at providing a comprehensive analysis of the contact problem in orthogon...
An analysis of the orthogonal metal cutting process is made which enables the shear angle to be cal...
Mechanical micromachining is a very flexible and widely exploited process, but its knowledge should ...
Despite the development of high performance finite element-based codes, the simulation of machining ...