AbstractSince geometric deviations decrease the quality and functional compliance of mechanical products, geometric variations management is an important issue for quality-aware companies in all phases of the product life-cycle. In this regard, the Closed Loop Tolerance Engineering Model highlights the main activities during geometric variations management and can be used to analyse the relations between the different involved actors. Though computer aided engineering tools are widely spread in product development practice with the aim to ease product design and analysis, these tools are mainly used separately and are not integrated in a coherent virtual geometric variations management process. Therefore, in this paper, the prerequisites fo...
Mechanical product quality is strongly influenced by the respect of Geometrical Tolerances (GT). On ...
International audienceRobust product designs are characterized by their insensitivity to disturbance...
Mechanical tolerances are specified in conjunction with part geometry, material type andother techni...
The need of a univocal language for geometrical product specification considering all steps of the p...
current tolerancing practice, designers have to manually specify tolerances: either on a drawing or ...
In current tolerancng practice, designers have to manually specify tolerances: either on a drawing o...
AbstractGeometric deviations are inevitably observable on every manufactured workpiece. These deviat...
AbstractTolerance analysis is a key tool to predict the consequences of geometric variations on prod...
This paper describes CASCADE-T—a new approach to tolerance synthesis that uses a complete representa...
This project reviews the theory and methodology adopted by TI/TOL 3D+ Tolerance Management System ap...
The main objectives of the thesis were to study the present day tolerance design techniques, evaluat...
Tolerance design is an important part of the product development and manufacturing process. Studies ...
Mechanical product quality is strongly influenced by the respect of Geometrical Tolerances (GT). On ...
Mechanical product quality is strongly influenced by the respect of Geometrical Tolerances (GT). On ...
International audienceRobust product designs are characterized by their insensitivity to disturbance...
Mechanical tolerances are specified in conjunction with part geometry, material type andother techni...
The need of a univocal language for geometrical product specification considering all steps of the p...
current tolerancing practice, designers have to manually specify tolerances: either on a drawing or ...
In current tolerancng practice, designers have to manually specify tolerances: either on a drawing o...
AbstractGeometric deviations are inevitably observable on every manufactured workpiece. These deviat...
AbstractTolerance analysis is a key tool to predict the consequences of geometric variations on prod...
This paper describes CASCADE-T—a new approach to tolerance synthesis that uses a complete representa...
This project reviews the theory and methodology adopted by TI/TOL 3D+ Tolerance Management System ap...
The main objectives of the thesis were to study the present day tolerance design techniques, evaluat...
Tolerance design is an important part of the product development and manufacturing process. Studies ...
Mechanical product quality is strongly influenced by the respect of Geometrical Tolerances (GT). On ...
Mechanical product quality is strongly influenced by the respect of Geometrical Tolerances (GT). On ...
International audienceRobust product designs are characterized by their insensitivity to disturbance...
Mechanical tolerances are specified in conjunction with part geometry, material type andother techni...