Detection and Influence of Shrinkage Pores and Nonmetallic Inclusions on Fatigue Life of Cast Aluminum Alloys |
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Authors: | Yakub Tijani André Heinrietz Wolfram Stets Patrick Voigt |
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Affiliation: | 1. Fraunhofer-Institute for Structural Durability and System Reliability LBF, Bartningstr. 47, 64289, Darmstadt, Germany 2. Institute of Casting Technology IfG, Sohnstra?e 70, 40237, Düsseldorf, Germany 3. Research & Development, Hanseatische Waren Handelsgesellschaft, Am Wall 127, 28195, Bremen, Germany
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Abstract: | In the current study, test bars of cast aluminum alloys EN AC-AlSi8Cu3 and EN AC-AlSi7Mg0.3 were produced with a defined amounts of shrinkage pores and oxides. For this purpose, a permanent mold with heating and cooling devices for the generation of pores was constructed. The oxides were produced by contaminating the melt. The specimens and their corresponding defect distributions were examined and quantified by X-ray computer tomography (CT) and quantitative metallography, respectively. A special test algorithm for the simultaneous image analyses of pores and oxides was developed. Fatigue tests were conducted on the defective samples. It was found that the presence of shrinkage pores lowers the fatigue strength, and only few oxide inclusions were found to initiate fatigue cracks when shrinkage pores are present. The results show that the pore volume is not sufficient to characterize the influence of shrinkage pores on fatigue life. A parametric model for the calculation of fatigue life based on the pore parameters obtained from CT scans was implemented. The model accounts for the combined impact of pore location, size, and shape on fatigue life reduction. |
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