Acoustical and Optical Determination of Mechanical Properties of Inorganically-Bound Foundry Core Materials

Acoustical and Optical Determination of Mechanical Properties of Inorganically-Bound Foundry Core Materials

Inorganically-bound sand cores are used in many light-metal foundries to form cavities in the cast part, which cannot be realised by the mould itself. To enable FEM simulations with core materials, their mechanical properties have to be measured. In this article, we adapt methods to determine the Yo...

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Bibliographic Details
Main Authors: Philipp Lechner, Georg Fuchs, Christoph Hartmann, Florian Steinlehner, Florian Ettemeyer, Wolfram Volk
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Materials
Subjects:
inorganic sand core materials
elastic properties
fracture strength
fracture strain
water-glass
3-point-bending
Online Access:https://www.mdpi.com/1996-1944/13/11/2531
Description
Summary:Inorganically-bound sand cores are used in many light-metal foundries to form cavities in the cast part, which cannot be realised by the mould itself. To enable FEM simulations with core materials, their mechanical properties have to be measured. In this article, we adapt methods to determine the Young’s and shear modulus, the Poisson ratio and the fracture strain of sand cores. This allows us to fully parametrise an ideal brittle FEM model. We found that the Young’s and shear modulus can be obtained acoustically via the impulse excitation technique. The fracture strain was measured with a high-speed camera and a digital image correlation algorithm.
ISSN:1996-1944

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