Alexander Giertler scite author profile

Dimensioning with high-strength steels relies on the knowledge of Wöhler-type S/N data and the assumption that no failure occurs for load levels below the fatigue limit for applications where the number of load cycles exceeds 10 7 .Very-high-cycle fatigue (VHCF) experiments applied to a 0.5C-1.0Cr-Mo tempered steel (German designation: 50CrMo4) revealed surface crack initiation at prior austenite grain boundaries in medium strength condition (37HRC) and internal crack initiation at nonmetallic inclusions at high strength condition (57HRC). Despite the formation of small cracks during cycling up to 10 9 cycles, it seems that these are nonpropagating cracks in the case of the medium strength condition and therefore a real fatigue limit exists. Application of automated electron back-scatter diffraction (EBSD) within the shallownotched area of electro-polished fatigue specimens had shown that prior austenite grain boundaries act as effective obstacles to crack propagation.High-resolution thermography during cycling of the specimens allowed the identification of local plasticity, which led to crack initiation at a later stage of the fatigue life. It was found that Cr segregation rows play a decisive role in the crack initiation process. By means of high-resolution electron microscopy in combination with focused ion beam milling (FIB), evolution of cyclic plasticity and crack initiation was correlated with the material 0 s microstructure. The results are discussed in terms of the completely different crack initiation mechanisms of medium and high strength variants of the same steel. EBSD microstructure and crack propagation data are used to adapt a numerical modeling tool to predict microcrack propagation in the VHCF regime. shear strain interval; ΔK FGA , stress intensity range at FGA; ΔK incl , stress intensity range at inclusion; ΔK th , threshold stress intensity range; ΔK th, nano , nanograin threshold stress intensity; dε/dt, strain rate; √area, square root of projection area of a defect

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The Significance of Local Plasticity for the Crack Initiation Process During Very High Cycle Fatigue of High Strength Steels

Giertler

Söker

Dönges

et al. 2014

Procedia Materials Science

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The behavior of short fatigue cracks during Very High Cycle (VHCF) Fatigue of duplex stainless steel

Krupp¹,

Giertler²,

Söker³

et al. 2015

Engineering Fracture Mechanics

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Significance and Mechanism of the Crack Initiation Process during Very High Cycle Fatigue of Duplex Stainless Steel

Krupp¹,

Giertler²,

Söker³

et al. 2014

Procedia Engineering

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