Enhancing the tensile properties of EBM as-built thin parts: Effect of HIP and chemical etching
Résumé
As-built Ti-6Al-4 V thin parts were manufactured using Electron Beam Melting (EBM) and characterized by optical microscopy and laboratory X-ray tomography in order to observe their microstructure, pore distribution and surface aspect. Chemical etching and HIP post-treatments were applied to as-built samples and their effect on the material and static mechanical properties were studied. Tensile tests were performed on both as-built and post-treated samples and their results compared to the ones reported in the literature for machined EBM samples. Because of the significant variations of the cross section observed along the gauge length, the calculation of the tensile stresses is not straightforward. Three simple sections were measured from the tomography scans. The average section along the gauge length was considered as the most suitable. The tensile mechanical properties of the as-built samples were studied and a detrimental effect of the surface state on the yield strength, ultimate tensile strength and elongation to failure was observed. Smoothing of the surface irregularities induced by chemical etching provoked an increase of those mechanical properties whereas the change of the microstructure generated by the HIP treatment leads to a decrease of the material strength that goes along with an increase of the ductility. Down scaling factors were proposed in order to take into account the sample state, as-built or post-treated. © 2018 Elsevier Inc.
Mots clés
3D printers
Electron beam melting
Electron beams
Etching
Gages
Mechanical properties
Microstructure
Tensile strength
Tensile testing
Titanium alloys
Tomography
Material strength
Post treatment
Static mechanical properties
Surface irregularities
Tensile behaviour
Tensile mechanical properties
Ultimate tensile strength
X ray microtomography
X rays