Dimensional variation in assembled products directly affects product performance. To reduce dimensional variation, it is necessary that an assembly be robust. A robust assembly is less sensitive to input variation from the product and process components, such as incoming parts, subassemblies, fixtures, and welding guns. In order to effectively understand the sensitivity of an assembly to input variation, an appropriate set of metrics must be defined. In this paper three product-oriented indices, including pattern sensitivity index, component sensitivity index, and station sensitivity index, are defined. These indices can be utilized to measure the variation influence of a pattern, an individual part, and/or component, and components at a pa...
The assembly of compliant, non-rigid parts is widely used in automotive, aerospace, electronics, and...
As one of the critical areas for automotive quality control, dimensional quality of automotive body ...
Assembly is more than putting parts together; it can be seen as a product and a process. In this art...
Sheet metal assembly is widely used in the fabrication of automotive body structures, aircraft fusel...
A new method for tolerance/variation analysis of multi-station assemblies of compliant parts is pres...
A new method for tolerance/ variation analysis of multi-station assemblies of compliant parts is pre...
This paper presents a methodology to diagnose sources of dimensional variation for compliant parts f...
Sheet metals are widely used in discrete products, such as automobiles, aircraft, furniture and elec...
Sheet metal assemblies are often used as support structures in automobiles, airplanes and appliances...
Automobile bodies must be built to have high dimensional integrity at competitive costs in the curre...
This paper presents a measurement case study of an automotive stamped sheet metal sub-assembly, in o...
In this paper, a platform geometrical sensitivity value for a part has been defined. Calculation and...
Predicting the final shape variation of single and multi-station assemblies of compliant parts is a ...
In multi-station manufacturing systems, the quality of final products is significantly affected by b...
Geometric feature variations are the result of variations in the shape, orientation or location of p...
The assembly of compliant, non-rigid parts is widely used in automotive, aerospace, electronics, and...
As one of the critical areas for automotive quality control, dimensional quality of automotive body ...
Assembly is more than putting parts together; it can be seen as a product and a process. In this art...
Sheet metal assembly is widely used in the fabrication of automotive body structures, aircraft fusel...
A new method for tolerance/variation analysis of multi-station assemblies of compliant parts is pres...
A new method for tolerance/ variation analysis of multi-station assemblies of compliant parts is pre...
This paper presents a methodology to diagnose sources of dimensional variation for compliant parts f...
Sheet metals are widely used in discrete products, such as automobiles, aircraft, furniture and elec...
Sheet metal assemblies are often used as support structures in automobiles, airplanes and appliances...
Automobile bodies must be built to have high dimensional integrity at competitive costs in the curre...
This paper presents a measurement case study of an automotive stamped sheet metal sub-assembly, in o...
In this paper, a platform geometrical sensitivity value for a part has been defined. Calculation and...
Predicting the final shape variation of single and multi-station assemblies of compliant parts is a ...
In multi-station manufacturing systems, the quality of final products is significantly affected by b...
Geometric feature variations are the result of variations in the shape, orientation or location of p...
The assembly of compliant, non-rigid parts is widely used in automotive, aerospace, electronics, and...
As one of the critical areas for automotive quality control, dimensional quality of automotive body ...
Assembly is more than putting parts together; it can be seen as a product and a process. In this art...