On the Strengthening and Embrittlement Mechanisms of an Additively Manufactured Nickel-Base Superalloy

The γ' phase strengthened Nickel-base superalloy is one of the most significant dual-phase alloy systems for high-temperature engineering applications. The tensile properties of laser powder-bed-fused IN738LC superalloy in the as-built state have been shown to have both good strength and ductility compared with its post-thermal treated state. A microstructural hierarchy composed of weak texture, sub-micron cellular structures and dislocation cellular walls was promoted in the as-built sample. After post-thermal treatment, the secondary phase γ' precipitated with various size and fraction depending on heat treatment process. For room temperature tensile tests, the dominated deformation mechanism is planar slip of dislocations in the as-built samples while dislocations bypassing the precipitates via Orowan looping in the γ' strengthened samples. The extraordinary strengthening effect due to the dislocation substructure in the as-built sample provides an addition of 372 MPa in yield strength. The results of our calculation are in agreement with experimental yield strength for all the three different conditions investigated. Strikingly, the γ' strengthened samples have higher work hardening rate than as-built sample but encountered premature failure. Experimental evidence shows that the embrittlement mechanism in the γ' strengthened samples is caused by the high dislocation hardening of the grain interior region, which reduces the ability to accommodate further plastic strain and leads to premature intergranular cracking. On the basis of these results, the strengthening micromechanism and double-edge effect of strengthening and ductility of Nickel-base superalloy is discussed in detail.

Keywords: Laser powder-bed-fusion, Nickel-base superalloy, Mechanical property, Cellular structure, γ' phase

Suggested Citation: Suggested Citation

Xu, Jinghao and Gruber, Hans and Boyd, Robert and Jiang, Shuang and Peng, Ru Lin and Moverare, Johan J., On the Strengthening and Embrittlement Mechanisms of an Additively Manufactured Nickel-Base Superalloy. Available at SSRN: https://ssrn.com/abstract=3513124 or http://dx.doi.org/10.2139/ssrn.3513124