Study on notch fracture of TiAl alloys at room temperature

Abstract: In-situ observations of fracture processes combined with one-to-one observations of fracture surfaces and finite-element method (FEM) calculations are carried out on notched tensile specimens of twophase polycrystalline TiAl alloys. The results reveal that most cracks are initiated and propagated along the interfaces between lamellae before plastic deformation. The driving force for the fracture process is the tensile stress, which is consistent with a previous study. [1] In specimens with a slit notch, most c… Show more

“…The inverse ductility/K 1C relationship is also observed in this paper, showing a lower tensile ductility 15 higher fracture toughness of the coarser NFL microstructure (Table 3).…”

“…In a previous work, 15 observing of surface fracture process of very thin specimens in situ, the present authors indicated that cracks prefer to initiate and propagate along lamellar interfaces, which are the weakest link in the near fully lamellar microstructure. The interlamellar strength was calculated to be less than 100 MPa and is significantly lower than the translamellar strength.…”

“…15 The tensile conditional yield strength and the tensile fracture stress and strain of the specimens with the finer NFL microstructure are inferior to those of specimens with the coarse DP microstructure. These phenomena are attributed to the much higher sampling volume in tensile tests, which involves the entire volume within the gauge.…”

“…10b. 15 Figure 11 shows the competition between two fatigue cracks initiating at the same notch root. One is composed of two interlamellar sections (marked 1) and a short translamellar section (marked 2) and propagates further, and the other (marked 3) stops at the boundary of a large grain with unfavourable orientation.…”

Fracture behaviour of precracked specimens of a TiAl alloy

“…The inverse ductility/K 1C relationship is also observed in this paper, showing a lower tensile ductility 15 higher fracture toughness of the coarser NFL microstructure (Table 3).…”

“…In a previous work, 15 observing of surface fracture process of very thin specimens in situ, the present authors indicated that cracks prefer to initiate and propagate along lamellar interfaces, which are the weakest link in the near fully lamellar microstructure. The interlamellar strength was calculated to be less than 100 MPa and is significantly lower than the translamellar strength.…”

“…15 The tensile conditional yield strength and the tensile fracture stress and strain of the specimens with the finer NFL microstructure are inferior to those of specimens with the coarse DP microstructure. These phenomena are attributed to the much higher sampling volume in tensile tests, which involves the entire volume within the gauge.…”

“…10b. 15 Figure 11 shows the competition between two fatigue cracks initiating at the same notch root. One is composed of two interlamellar sections (marked 1) and a short translamellar section (marked 2) and propagates further, and the other (marked 3) stops at the boundary of a large grain with unfavourable orientation.…”

Fracture behaviour of precracked specimens of a TiAl alloy

“…A diamond-coated blade cutting tool was used to cut the as-cast TiAl alloys into metallographic and compressive samples. The metallographic samples were polished and then etched in a solution of 10 vol.% HNO 3 , 5 vol.% HF, and 85 vol.% water [20]. X-ray diffraction (XRD) using a diffractometer (Siemens D5000) with Cu Kα anode (λ = 1.54056 Å) was used to identify the phases present in the samples.…”

The Effects of Cr and Mo on the Microstructure and Mechanical Properties of As-Cast TiAl Alloys

Mechanism of Cleavage Fracture of HSLA Steels and TiAl Alloys