Method for optimizing mechanical strength of a casting using microstructure predictions

Assignee

• Ford Global Technologies, LLC · US

Inventors

• Nagendra Palle · Danville, US
• Ravi Vijayaraghavan · Bengaluru, IN
• Jacob Wesley Zindel · Ann Arbor, US
• William T. Donlon, Jr. · Detroit, US
• John E. Allison · Plymouth, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG01N33/204
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

A method for quantitatively predicting and consequently minimizing the amount of critical phases such as eutectic Al.sub.2 Cu formed during solidification of Al--Si--Cu alloys used in a vehicle engine component comprises developing a micromodel to simulate microstructure evolution in cast Al--Si or Al--Cu alloys. The micromodel is calibrated using experimental thermal analysis cooling curves and an optimization process. Microstructure evolution and cooling curves are simulated for a casting using the calibrated micromodel. Precipitation of critical phases such as Al.sub.2 Cu in the casting is predicted as a function of solidification conditions. The model allows casting process variables to be varied with predictable results so that the casting process can be controlled via the micromodel.