Guilhem Martin scite author profile

A non weldable nickel-based superalloy was fabricated by powder bed-based selective electron beam melting (S-EBM). The as-built samples exhibit a heterogeneous microstructure along the build direction. A gradient of columnar grain size as well as a significant gradient in the γ' precipitate size were found along the build direction. Microstructural defects such as gas porosity inherited from the powders, shrinkage pores and cracks inherited from the S-EBM process were identified. The origins of those defects are discussed with a particular emphasis on crack formation. Cracks were consistently found to propagate intergranular and the effect of crystallographic misorientation on the cracking behavior was investigated. A clear correlation was identified between cracks and high angle grain boundaries (HAGB). The cracks were classified as hot cracks based on the observation of the fracture surface of microtensile specimens machined from as-built S-EBM samples. The conditions required to trigger hot cracking, namely, presence of a liquid film during the last stage of solidification and thermal stresses are discussed within the framework of additive manufacturing. Understanding the cracking mechanism enables to provide guidelines to obtain crack-free specimens of non-weldable Ni-based superalloys produced by S-EBM.

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Mechanical equivalent diameter of single struts for the stiffness prediction of lattice structures produced by Electron Beam Melting

Suard

Martin

Lhuissier

et al. 2015

Additive Manufacturing

110

118

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Guilhem Martin

Hot cracking mechanism affecting a non-weldable Ni-based superalloy produced by selective electron Beam Melting

Mechanical equivalent diameter of single struts for the stiffness prediction of lattice structures produced by Electron Beam Melting

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