Numerical Modeling of Residual Stresses and Fracture Strengths of Ba0.5Sr0.5Co0.8Fe0.2O3−δ in Reactive Air Brazed Joints

Author:

Rudenskiy Donat1ORCID,Herzog Simone1ORCID,Horbach Lutz1ORCID,Gebhardt Nils Christian1,Weber Felix1,Kaletsch Anke1ORCID,Broeckmann Christoph1

Affiliation:

1. Institute for Materials Applications in Mechanical Engineering, RWTH Aachen University, 52062 Aachen, Germany

Abstract

Reactive Air Brazing (RAB) enables the joining of vacuum-sensitive oxide ceramics, such as Ba0.5Sr0.5Co0.8Fe0.2O3−δ (BSCF), to metals in a one-step process. However, damage may form in ceramic or joint during RAB. In this work, experimental microstructure characterization, measurement, and prediction of local material properties using finite element analysis were combined to enlighten these damage mechanisms, which are currently not well understood. Micromechanical simulations were performed using representative volume elements. Cooling simulations indicate that small-sized CuO precipitations are most likely to cause crack initiation in BSCF during cooling. The ball-on-three-balls experiment with porous BSCF samples was analyzed numerically to determine the values of temperature-dependent BSCF fracture stresses. The inversely calibrated fracture stresses in the bulk BSCF phase are underestimated, and true values should be quite high, according to an extreme value analysis of pore diameters.

Funder

German Research Foundation

Publisher

MDPI AG

Subject

General Materials Science

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