a flexible and accurate method for separating spindle error motion and workpiece roundness is presented. The method makes use of three or more displacement probes. Angle measuring probes can also be used. The angular positions of the probes as well as errors in sensor amplification are determined directly from the measurement data and require no extra measurements. The method can be used for real-time runout measurements with nanometer accuracy
This work demonstrates techniques that advance the standard practice in spindle metrology and enable...
Experimental determination of both steady-state and dynamic performance of a jour-nal bearing requir...
The accuracy of roundness measurement on CMM is in majority affected by the probe errors and geometr...
a flexible and accurate method for separating spindle error motion and workpiece roundness is presen...
The accuracy of a subtractive machining process is affected by the error motions of the machine tool...
In this work, a nanometre accurate spindle error motion separation technique is proposed and validat...
Fourier model–based multi-probe-error-separation is an error separation method that is useful ...
This work designs and validates a spindle error motion separation technique having a sub-nanometre m...
This paper proposes an improved multi-probe method for measurement of spindle error motions. Four de...
International audienceThe accuracy of roundness measurement is limited by the repeatability of measu...
With the advantage of in situ measurement, the three-probe method is commonly used to measure either...
The goal of this work is to propose a suitable methodology for measuring and evaluating the geometri...
This paper describes a method for measuring and compensating the roundness error of a larger mandrel...
The paper deals with methods of measurement of radial errors of the precision spindles using the rou...
This paper deals with cutting force monitoring for high-precision machining. The authors have employ...
This work demonstrates techniques that advance the standard practice in spindle metrology and enable...
Experimental determination of both steady-state and dynamic performance of a jour-nal bearing requir...
The accuracy of roundness measurement on CMM is in majority affected by the probe errors and geometr...
a flexible and accurate method for separating spindle error motion and workpiece roundness is presen...
The accuracy of a subtractive machining process is affected by the error motions of the machine tool...
In this work, a nanometre accurate spindle error motion separation technique is proposed and validat...
Fourier model–based multi-probe-error-separation is an error separation method that is useful ...
This work designs and validates a spindle error motion separation technique having a sub-nanometre m...
This paper proposes an improved multi-probe method for measurement of spindle error motions. Four de...
International audienceThe accuracy of roundness measurement is limited by the repeatability of measu...
With the advantage of in situ measurement, the three-probe method is commonly used to measure either...
The goal of this work is to propose a suitable methodology for measuring and evaluating the geometri...
This paper describes a method for measuring and compensating the roundness error of a larger mandrel...
The paper deals with methods of measurement of radial errors of the precision spindles using the rou...
This paper deals with cutting force monitoring for high-precision machining. The authors have employ...
This work demonstrates techniques that advance the standard practice in spindle metrology and enable...
Experimental determination of both steady-state and dynamic performance of a jour-nal bearing requir...
The accuracy of roundness measurement on CMM is in majority affected by the probe errors and geometr...