AbstractWhether roundness error can be evaluated accurately and efficiently or not will directly influence the mechanical products performance and life. For this reason, this paper introduces simple and efficient algorithms to evaluate the roundness error from the measured points using four internationally defined methods: Least Squares Circle (LSC), Minimum Circumscribed Circle (MCC), Maximum Inscribed Circle (MIC) and Minimum Zone Circles (MZC). A software has been developed using Matlab to apply these algorithms on the test data
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
MESH is an ε-approximate algorithm to find the minimum zone center of a given roundness profile, wit...
AbstractThe calibration system of the probing system used in roundness measuring instrument has been...
AbstractWhether roundness error can be evaluated accurately and efficiently or not will directly inf...
Form deviation of machined components need to be controlled within the required tolerance values for...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
Requirements to roundness tolerances are a part of the geometrical product specifications. However, ...
According to ISO 1101, “A geometrical tolerance applied to a feature defines the tolerance zone with...
Quality of mechanical components is more and more often related to geometric tolerances, e.g., round...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
The geometrical tolerance verification of machined part is a process composed of a set of inspection...
The minimum zone tolerance (MZT) meets the ISO 1101 definition of roundness error: it determines two...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
The customary procedures of roundness measurement have been developed in response to particular need...
This paper aims to analyze the different adjustment methods commonly used to characterize indirect m...
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
MESH is an ε-approximate algorithm to find the minimum zone center of a given roundness profile, wit...
AbstractThe calibration system of the probing system used in roundness measuring instrument has been...
AbstractWhether roundness error can be evaluated accurately and efficiently or not will directly inf...
Form deviation of machined components need to be controlled within the required tolerance values for...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
Requirements to roundness tolerances are a part of the geometrical product specifications. However, ...
According to ISO 1101, “A geometrical tolerance applied to a feature defines the tolerance zone with...
Quality of mechanical components is more and more often related to geometric tolerances, e.g., round...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
The geometrical tolerance verification of machined part is a process composed of a set of inspection...
The minimum zone tolerance (MZT) meets the ISO 1101 definition of roundness error: it determines two...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
The customary procedures of roundness measurement have been developed in response to particular need...
This paper aims to analyze the different adjustment methods commonly used to characterize indirect m...
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
MESH is an ε-approximate algorithm to find the minimum zone center of a given roundness profile, wit...
AbstractThe calibration system of the probing system used in roundness measuring instrument has been...