Issue 35

R. Konečná et alii, Frattura ed Integrità Strutturale, 35 (2016) 31-40; DOI: 10.3221/IGF-ESIS.36.04 33 Compact-tension (CT) specimens according to the geometry specified in ASTM E 647-08 were fabricated by the SLM process. The build direction was parallel to the crack propagation plane as shown in Fig. 3. A typical, as-produced Inconel 718 CT specimen is shown in Fig. 4. It is pointed out that the pin holes and the starter notch were obtained directly. The pin holes were then reamed to the final dimension and tolerance. Figure 1 : The range of powder sizes, SEM. Figure 2 : Scheme of a SLM machine [11]. Specimens for metallography were cut out from CT specimen halves after testing in such a way that the microstructure in the three main planes defined in Fig. 3 could be observed. Specimens were hot-pressed into Duroplast using CitoPress-1 device. Metallographic specimens were prepared using an automatic grinding and polishing system TegraPol-15. Grinding was conducted using SiC paper (220 grit) and fine sanding on the MD Largo discs with the addition of DiaProAlegro Largo emulsion. Polishing was conducted using MD Dac canvas with the addition of DiaProDac emulsion, followed by a final chemical polishing on the MD Chem polishing canvas with the addition of OP-S suspension. The metallographic analysis was performed using light microscope Neophot 32 and Zeiss Axio Observer Z1M on metallographic specimens etched by Kalling’s reagent (2 g of CuCl 2 , 40 ml of HCl, 80 ml of methanol). The microstructure was observed at higher magnification in the scanning electron microscope (SEM) after re-polishing of used specimens for LM and etching by agent with composition 40 ml HNO 3 + 30 ml HF. Figure 3 : CT specimen orientation with respect to build direction. Figure 4 : CT specimen made of SLM Inconel 718. Vickers hardness measurement was performed using 250 HPO/AQ apparatus. The load of 98.1 N (10 kp) was applied for 10 s. Fracture surfaces were observed in a Tescan LYRA 3 XMU FEG/SEM microscope. The fatigue crack growth (FCG) experiments were conducted on a Roell/Amsler HFP 5100 resonant testing machine in load control under load cycle asymmetry R = P min /P max = 0.1. The loading frequency was dependent on the crack length, i.e. on the stiffness of the cracked specimen and was in the interval from 80 to 60 Hz. Crack propagation measurement was performed at ambient laboratory conditions. The crack length was optically measured checking the two lateral sides of the

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