Add to ORKGWithin this paper an approach will be discussed that capacitates a time reduced method for accuracy identification of 5-axis machines. Based on machine models sensitivity analyses are performed to identify the impact of single axis errors. In combination with a simple measurement procedure the amount of superior axis errors can be estimated. Also the overall accuracy can be identified using this procedure
The five-axis measuring systems are one of the most modern inventions in coordinate measuring techni...
This paper presents a 5-axis machine tool compensation method that uses tool tip measurements record...
This research work deals with the geometric modelling of 5-axis machine tool based on a standardised...
This paper represents investigations to reduce the required calibration and compensation effort for ...
AbstractIn aerospace industry the application of five axis machines is increasing and becoming commo...
Geometric error modeling and its sensitivity analysis are carried out in this paper, which is helpfu...
A 5-axis milling machine has 39 independent geometric error components when the machine tool is cons...
Geometric errors are inevitably introduced into any multiaxis measuring system, and the geometric er...
This dissertation aims to enhance machining accuracy by machine tool error reduction and workpiece m...
The metrological calibration of 5-axis machines requires a huge effort. The Fraunhofer IPT investiga...
Current automated machining systems are composed of a number of components to aid in bringing a surf...
Now equipped with touch trigger probes machine tools are increasingly used to measure workpieces for...
New metrology tools, such as laser trackers, are enabling the rapid collection of machine tool geome...
This article presents a new integrated geometric model that takes worktable as reference for five-ax...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
The five-axis measuring systems are one of the most modern inventions in coordinate measuring techni...
This paper presents a 5-axis machine tool compensation method that uses tool tip measurements record...
This research work deals with the geometric modelling of 5-axis machine tool based on a standardised...
This paper represents investigations to reduce the required calibration and compensation effort for ...
AbstractIn aerospace industry the application of five axis machines is increasing and becoming commo...
Geometric error modeling and its sensitivity analysis are carried out in this paper, which is helpfu...
A 5-axis milling machine has 39 independent geometric error components when the machine tool is cons...
Geometric errors are inevitably introduced into any multiaxis measuring system, and the geometric er...
This dissertation aims to enhance machining accuracy by machine tool error reduction and workpiece m...
The metrological calibration of 5-axis machines requires a huge effort. The Fraunhofer IPT investiga...
Current automated machining systems are composed of a number of components to aid in bringing a surf...
Now equipped with touch trigger probes machine tools are increasingly used to measure workpieces for...
New metrology tools, such as laser trackers, are enabling the rapid collection of machine tool geome...
This article presents a new integrated geometric model that takes worktable as reference for five-ax...
The indirect identification of the geometric errors (GEs) in the rotary axis of a machine tool yield...
The five-axis measuring systems are one of the most modern inventions in coordinate measuring techni...
This paper presents a 5-axis machine tool compensation method that uses tool tip measurements record...
This research work deals with the geometric modelling of 5-axis machine tool based on a standardised...