Tolerance Analysis for Sheet Metal Assemblies
- 1 March 1996
- journal article
- Published by ASME International in Journal of Mechanical Design
- Vol. 118 (1), 62-67
- https://doi.org/10.1115/1.2826857
Abstract
Traditional tolerance analyses such as the worst case methods and the statistical methods are applicable to rigid body assemblies. However, for flexible sheet metal assemblies, the traditional methods are not adequate: the components can deform, changing the dimensions during assembly. This paper evaluates the effects of deformation on component tolerances using linear mechanics. Two basic configurations, assembly in series and assembly in parallel, are investigated using analytical methods. Assembly sequences and multiple joints beyond the basic configurations are further examined using numerical methods (with finite element analysis). These findings constitute a new methodology for the tolerancing of deformable parts.Keywords
This publication has 12 references indexed in Scilit:
- New Production Cost-Tolerance Models for Tolerance SynthesisJournal of Engineering for Industry, 1994
- Modelling and representation of dimensions and tolerances: a surveyComputer-Aided Design, 1992
- Review of dimensioning and tolerancing: representation and processingComputer-Aided Design, 1991
- Automated tolerance analysis for mechanical assemblies modeled with geometric features and relational data structureComputer-Aided Design, 1991
- A survey of research in the application of tolerance analysis to the design of mechanical assembliesResearch in Engineering Design, 1991
- Root Sum Squares Tolerance Analysis with Nonlinear ProblemsJournal of Engineering for Industry, 1990
- Tolerances: Their Analysis and SynthesisJournal of Engineering for Industry, 1990
- Finite-Element Analysis of Flexible Fixturing SystemJournal of Engineering for Industry, 1987
- A New Tolerance Analysis Method for Designers and ManufacturersJournal of Engineering for Industry, 1987
- Representation of geometric features, tolerances, and attributes in solid modelers based on constructive geometryIEEE Journal on Robotics and Automation, 1986