AbstractThe paper presents a simulation tool designed to predict form errors of part surfaces obtained by face milling and turning processes. For these operations, the form error is often due to the flexibility of the workpiece and its supports. The finite element method is adopted to model the part geometry and to compute its deformations. Numerous load cases are required to obtain the form error so that classical resolution methods prove to be inefficient (CPU time, memory and disk space). The paper mainly focuses on the special computation scheme adopted in order to improve the resolution of such an atypical problem
Design of machining processes in aerospace manufacturing relies mainly on experimental approaches; b...
Simulation of the machining process is a widespread technique to predict the optimal parameters for ...
To manufacture a high precision component, the aircraft industry in particular, employs computer num...
The paper presents a simulation tool designed to predict form errors of part surfaces obtained by fa...
AbstractThe paper presents a simulation tool designed to predict form errors of part surfaces obtain...
peer reviewedAt the 2001 Esaform conference, we have presented a simulation tool designed to predict...
peer reviewedThe paper describes a new simulation tool that gives the machined surface error in face...
peer reviewedA method is proposed for predicting form errors due to both clamping and cutting forces...
In this paper, we present a new simulation tool for process engineers. During process design phases,...
Finite Element Method in Machining Processes provides a concise study on the way the Finite Element ...
In end milling, tool deflection can often be a main cause of machining error. Therefore, in our prev...
The article discusses the problem of increasing the accuracy of machining workpieces on machines wit...
Simulating technological processes offer the chance to optimize machining strategy, tool selection a...
This paper presents a new and practical process simulation method to analyze surface errors caused b...
To ensure the machining accuracy of workpiece, it is necessary to predict the workpiece deformation ...
Design of machining processes in aerospace manufacturing relies mainly on experimental approaches; b...
Simulation of the machining process is a widespread technique to predict the optimal parameters for ...
To manufacture a high precision component, the aircraft industry in particular, employs computer num...
The paper presents a simulation tool designed to predict form errors of part surfaces obtained by fa...
AbstractThe paper presents a simulation tool designed to predict form errors of part surfaces obtain...
peer reviewedAt the 2001 Esaform conference, we have presented a simulation tool designed to predict...
peer reviewedThe paper describes a new simulation tool that gives the machined surface error in face...
peer reviewedA method is proposed for predicting form errors due to both clamping and cutting forces...
In this paper, we present a new simulation tool for process engineers. During process design phases,...
Finite Element Method in Machining Processes provides a concise study on the way the Finite Element ...
In end milling, tool deflection can often be a main cause of machining error. Therefore, in our prev...
The article discusses the problem of increasing the accuracy of machining workpieces on machines wit...
Simulating technological processes offer the chance to optimize machining strategy, tool selection a...
This paper presents a new and practical process simulation method to analyze surface errors caused b...
To ensure the machining accuracy of workpiece, it is necessary to predict the workpiece deformation ...
Design of machining processes in aerospace manufacturing relies mainly on experimental approaches; b...
Simulation of the machining process is a widespread technique to predict the optimal parameters for ...
To manufacture a high precision component, the aircraft industry in particular, employs computer num...