A quantitative analysis to identify the key geometric error elements and their coupling is the prerequisite and foundation for improving the precision of machine tools. The purpose of this paper is to identify key geometric error elements and compensate for geometric errors accordingly. The geometric error model of three-axis machine tool is built on the basis of multibody system theory; and the quantitative global sensitivity analysis (GSA) model of geometric error elements is constructed by using extended Fourier amplitude sensitivity test method. The crucial geometric errors are identified; and stochastic characteristics of geometric errors are taken into consideration in the formulation of building up the compensation strategy. The vali...
AbstractKinematic errors due to geometric inaccuracies in machining system cause deviations of tool ...
Three-axis milling machine tools are widely used in manufacturing enterprises, and they have enormou...
To enhance the geometric accuracy of a machined part, both the static and dynamic errors present in ...
This paper presents an integrated geometric error modeling, identification and compensation method f...
Geometric errors are inevitably introduced into any multiaxis measuring system, and the geometric er...
The CNC machines are the basic requirement of whole manufacturing industries. The current demand of ...
For measuring machines and machine tools, geometrical accuracy is a key performance criterion. While...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
AbstractThis paper proposes a geometric error model for the three-axis machine tool using the homoge...
The manufacturing community has been constantly pursuing product quality improvement. As people rely...
Zwiększenie dokładności wytwarzania przedmiotów obrabianych techniką skrawania można osiągnąć między...
In order to quickly and accurately predict the spatial geometric error field of the five-axis machin...
This Paper presents research on geometric errors of simulated geometry which are measured and compen...
Accuracy of a five-axis CNC machine tool is affected by a vast number of error sources. This paper i...
Geometric error modeling and its sensitivity analysis are carried out in this paper, which is helpfu...
AbstractKinematic errors due to geometric inaccuracies in machining system cause deviations of tool ...
Three-axis milling machine tools are widely used in manufacturing enterprises, and they have enormou...
To enhance the geometric accuracy of a machined part, both the static and dynamic errors present in ...
This paper presents an integrated geometric error modeling, identification and compensation method f...
Geometric errors are inevitably introduced into any multiaxis measuring system, and the geometric er...
The CNC machines are the basic requirement of whole manufacturing industries. The current demand of ...
For measuring machines and machine tools, geometrical accuracy is a key performance criterion. While...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
AbstractThis paper proposes a geometric error model for the three-axis machine tool using the homoge...
The manufacturing community has been constantly pursuing product quality improvement. As people rely...
Zwiększenie dokładności wytwarzania przedmiotów obrabianych techniką skrawania można osiągnąć między...
In order to quickly and accurately predict the spatial geometric error field of the five-axis machin...
This Paper presents research on geometric errors of simulated geometry which are measured and compen...
Accuracy of a five-axis CNC machine tool is affected by a vast number of error sources. This paper i...
Geometric error modeling and its sensitivity analysis are carried out in this paper, which is helpfu...
AbstractKinematic errors due to geometric inaccuracies in machining system cause deviations of tool ...
Three-axis milling machine tools are widely used in manufacturing enterprises, and they have enormou...
To enhance the geometric accuracy of a machined part, both the static and dynamic errors present in ...