Comparison between Real and Virtual Strain Gauges: A Method to Calibrate Finite Element Models Based on Real Measurements 2014-36-0160
Real and virtual testing are extensively used tools in the product development cycle. Efficiency improvement demands on this development process, like cost and time reduction, usually presume the combination of testing with simulation even on the design stage of the component. This study aimed to demonstrate an example of how real measurements can be used as feedback loops in computer-aided engineering (CAE) analysis. For this purpose, a truck's suspension component, instrumented with strain gauges on its hotspots, has been tested in a proving ground track located in Brazil. Using nCode Designlife™ 9.0, virtual strain gauges have been placed in the component's finite element model and, with the measured forces inputs, theirs results were compared to the correspondents gauges on the real component. Despite the need for more studies, the comparison between real and virtual strain gauges suggested that this could be an efficient method to calibrate numeric models regarding its different variables, as force inputs, boundary conditions and material properties.
Citation: Larocca, A., Rose, B., Kubo, P., and Cararo, G., "Comparison between Real and Virtual Strain Gauges: A Method to Calibrate Finite Element Models Based on Real Measurements," SAE Technical Paper 2014-36-0160, 2014, https://doi.org/10.4271/2014-36-0160. Download Citation
Arthur Larocca, Bruno Rose, Pablo Kubo, Glaucio Cararo
Alpha Serviços de Assessoria Técnica Ldta., Volvo do Brasil
23rd SAE Brasil International Congress and Display