This project reviews the theory and methodology adopted by TI/TOL 3D+ Tolerance Management System application software. The assembly variation model of a mechanical assembly is based on vector loop which represent the dimension chains that produce tolerance stackup in the assembly. A method called Direct Linearisation Method (DLM) is employed to generalise the assembly variation model to include small kinematic adjustments between mating parts.Master of Science (Computer Integrated Manufacturing
The fields of tolerancing and assembly analysis have depended for decades on ad hoc, shop floor meth...
The need of a univocal language for geometrical product specification considering all steps of the p...
During last years variational models for tolerance analysis, both for rigid and compliant assemblies...
This project reviews the theory and methodology adopted by TI/TOL 3D+ Tolerance Management System ap...
Tolerance analysis of assemblies promotes concurrent engineering by bringing engineering requirement...
Geometric feature variations are the result of variations in the shape, orientation or location of p...
A computer aided tolerancing tool is presented that assists the designer in functional tolerance spe...
AbstractSince geometric deviations decrease the quality and functional compliance of mechanical prod...
Graduation date: 1994Accompanying data file formats may be obsolete and not compatible with current ...
Assembly is more than putting parts together; it can be seen as a product and a process. In this art...
One of the tests carried out by designers in an attempt to check whether an assembly of components w...
Product geometry measurement is a critical step in the product development cycle. It provides dimens...
Mechanical tolerances are specified in conjunction with part geometry, material type and other techn...
The aim of this thesis is to model and analyze geometric tolerancing for assembly. First, general to...
Mechanical tolerances are specified in conjunction with part geometry, material type andother techni...
The fields of tolerancing and assembly analysis have depended for decades on ad hoc, shop floor meth...
The need of a univocal language for geometrical product specification considering all steps of the p...
During last years variational models for tolerance analysis, both for rigid and compliant assemblies...
This project reviews the theory and methodology adopted by TI/TOL 3D+ Tolerance Management System ap...
Tolerance analysis of assemblies promotes concurrent engineering by bringing engineering requirement...
Geometric feature variations are the result of variations in the shape, orientation or location of p...
A computer aided tolerancing tool is presented that assists the designer in functional tolerance spe...
AbstractSince geometric deviations decrease the quality and functional compliance of mechanical prod...
Graduation date: 1994Accompanying data file formats may be obsolete and not compatible with current ...
Assembly is more than putting parts together; it can be seen as a product and a process. In this art...
One of the tests carried out by designers in an attempt to check whether an assembly of components w...
Product geometry measurement is a critical step in the product development cycle. It provides dimens...
Mechanical tolerances are specified in conjunction with part geometry, material type and other techn...
The aim of this thesis is to model and analyze geometric tolerancing for assembly. First, general to...
Mechanical tolerances are specified in conjunction with part geometry, material type andother techni...
The fields of tolerancing and assembly analysis have depended for decades on ad hoc, shop floor meth...
The need of a univocal language for geometrical product specification considering all steps of the p...
During last years variational models for tolerance analysis, both for rigid and compliant assemblies...