The need of a univocal language for geometrical product specification considering all steps of the product life cycle such as design, manufacturing, and inspection is inevitable. Most models for Computer-Aided Tolerancing proposed by researchers and used in industry do not fully conform with standards. Moreover, most of them make severe assumptions on observable geometric deviations and can therefore hardly handle all kinds of 3D tolerances. These lacks inspired the idea and the development of a discrete geometry framework that is capable of considering geometric deviations of different stages of the product life cycle and is versatile regarding current and future tolerancing standards. This work uses a point cloud-based geometry representa...
The paper describes a method for the generation of tolerance specifications from product data. The p...
Over the past years, in order to perform virtual product validation from a geometrical point of view...
During recent years, variational models for tolerance analysis, both for rigid and compliant assembl...
The need of a univocal language for geometrical product specification considering all steps of the p...
Purpose-The purpose of this work is to present a variational model able to deal with form tolerances...
The present work shows a method to integrate the manufacturing signature and the operating condition...
AbstractThe present work shows a method to integrate the manufacturing signature and the operating c...
Many models for tolerance analysis of rigid parts exist in the literature. However, they do not co...
AbstractGeometric deviations are inevitably observable on every manufactured workpiece. These deviat...
Manual drafting is rapidly being replaced by modern, computerized systems for defining the geometry ...
Geometrical variation affects all mass-produced products. This variation will lead to deviations fro...
Manual drafting is rapidly being replaced by modern, computerized systems for defining the geometry ...
In spite of the impressive growth in functionality of modern CAD systems, the integration of toleran...
The aim of tolerance analysis is to find a balance between manufacturing cost and product geometric ...
AbstractSince geometric deviations decrease the quality and functional compliance of mechanical prod...
The paper describes a method for the generation of tolerance specifications from product data. The p...
Over the past years, in order to perform virtual product validation from a geometrical point of view...
During recent years, variational models for tolerance analysis, both for rigid and compliant assembl...
The need of a univocal language for geometrical product specification considering all steps of the p...
Purpose-The purpose of this work is to present a variational model able to deal with form tolerances...
The present work shows a method to integrate the manufacturing signature and the operating condition...
AbstractThe present work shows a method to integrate the manufacturing signature and the operating c...
Many models for tolerance analysis of rigid parts exist in the literature. However, they do not co...
AbstractGeometric deviations are inevitably observable on every manufactured workpiece. These deviat...
Manual drafting is rapidly being replaced by modern, computerized systems for defining the geometry ...
Geometrical variation affects all mass-produced products. This variation will lead to deviations fro...
Manual drafting is rapidly being replaced by modern, computerized systems for defining the geometry ...
In spite of the impressive growth in functionality of modern CAD systems, the integration of toleran...
The aim of tolerance analysis is to find a balance between manufacturing cost and product geometric ...
AbstractSince geometric deviations decrease the quality and functional compliance of mechanical prod...
The paper describes a method for the generation of tolerance specifications from product data. The p...
Over the past years, in order to perform virtual product validation from a geometrical point of view...
During recent years, variational models for tolerance analysis, both for rigid and compliant assembl...