Add to ORKGThis paper represents investigations to reduce the required calibration and compensation effort for machining accuracy enhancement by identifying and treating significant axis errors that have superior impact on the accuracy. For this theoretical and metrological analyses were performed as well as machining tests
AbstractIn aerospace industry the application of five axis machines is increasing and becoming commo...
This paper presents a new strategy of analysis and compensation of non-linear error. Non-linear erro...
International audienceThis paper presents an Off-line Gain Adjustment (OGA) approach to reduce conto...
Within this paper an approach will be discussed that capacitates a time reduced method for accuracy ...
Five-axis computer numerical control (CNC) machine tools (three linear and two rotary axes) are idea...
Kinematic errors due to geometric inaccuracies in five-axis machining centers cause deviations in to...
This dissertation aims to enhance machining accuracy by machine tool error reduction and workpiece m...
This paper presents a 5-axis machine tool compensation method that uses tool tip measurements record...
博士(工学)同志社大学5軸制御マシニングセンターの運動精度の向上に向けた新たなキャリブレーション手法の開発に取り組んだ.また、直進および旋回軸の各種の運動誤差要因を診断する手法を構築した.さらにサーボ...
Rotary tables are widely used with multi-axis machine tools as a means for providing rotational moti...
Accuracy of a five-axis CNC machine tool is affected by a vast number of error sources. This paper i...
Now equipped with touch trigger probes machine tools are increasingly used to measure workpieces for...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
This study discusses the development of a method for compensating profile errors, resulting from the...
The accuracy of a machine tool is the limiting factor in the accuracy of finished parts. Errors in t...
AbstractIn aerospace industry the application of five axis machines is increasing and becoming commo...
This paper presents a new strategy of analysis and compensation of non-linear error. Non-linear erro...
International audienceThis paper presents an Off-line Gain Adjustment (OGA) approach to reduce conto...
Within this paper an approach will be discussed that capacitates a time reduced method for accuracy ...
Five-axis computer numerical control (CNC) machine tools (three linear and two rotary axes) are idea...
Kinematic errors due to geometric inaccuracies in five-axis machining centers cause deviations in to...
This dissertation aims to enhance machining accuracy by machine tool error reduction and workpiece m...
This paper presents a 5-axis machine tool compensation method that uses tool tip measurements record...
博士(工学)同志社大学5軸制御マシニングセンターの運動精度の向上に向けた新たなキャリブレーション手法の開発に取り組んだ.また、直進および旋回軸の各種の運動誤差要因を診断する手法を構築した.さらにサーボ...
Rotary tables are widely used with multi-axis machine tools as a means for providing rotational moti...
Accuracy of a five-axis CNC machine tool is affected by a vast number of error sources. This paper i...
Now equipped with touch trigger probes machine tools are increasingly used to measure workpieces for...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
This study discusses the development of a method for compensating profile errors, resulting from the...
The accuracy of a machine tool is the limiting factor in the accuracy of finished parts. Errors in t...
AbstractIn aerospace industry the application of five axis machines is increasing and becoming commo...
This paper presents a new strategy of analysis and compensation of non-linear error. Non-linear erro...
International audienceThis paper presents an Off-line Gain Adjustment (OGA) approach to reduce conto...