Site specific control of crystallographic grain orientation through electron beam additive manufacturing

Dehoff, Ryan; Kirka, Michael; Sames, William J.; Bilheux, Hassina; Tremsin, Anton S.; Lowe, Larry; Babu, S. S.

doi:10.1179/1743284714y.0000000734

articleMaterials Science and TechnologyDec 11, 2014Closed access

Site specific control of crystallographic grain orientation through electron beam additive manufacturing

RDRyan Dehoff MKMichael Kirka WJWilliam J. Sames HBHassina Bilheux ASAnton S. Tremsin

Oak Ridge National Laboratory · Texas A&M University · +3 more institutions

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Abstract

Site specific control of the crystallographic orientation of grains within metal components has been unachievable before the advent of metals additive manufacturing (AM) technologies. To demonstrate the capability, the growth of highly misoriented micron scale grains outlining the letters D, O and E, through the thickness of a 25·4 mm tall bulk block comprised of primarily columnar [001] oriented grains made of the nickel base superalloy Inconel 718 was promoted. To accomplish this, electron beam scan strategies were developed based on principles of columnar to equiaxed transitions during solidification. Through changes in scan strategy, the electron beam heat source can rapidly change between point and line…

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Topics & keywords

Topics

Keywords

Materials science
Equiaxed crystals
Electron backscatter diffraction
Superalloy
Cathode ray
Texture (cosmology)
Crystallography
Electron

UN Sustainable Development Goals

Affordable and clean energy

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