Grant W. Helmreich scite author profile

Grant W. Helmreich

5Publications

87Citation Statements Received

81Citation Statements Given

How they've been cited

131

How they cite others

Affiliations

Oak Ridge National Laboratory, University of Tennessee at Knoxville

Publications

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Feasibility of in situ controlled heat treatment (ISHT) of Inconel 718 during electron beam melting additive manufacturing

Sames

Unocic

Helmreich

et al. 2017

Additive Manufacturing

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A novel technique was developed to control the microstructure evolution in Alloy 718 processed using Electron Beam Melting (EBM). In situ solution treatment and aging of Alloy 718 was performed by heating the top surface of the build after build completion scanning an electron beam to act as a planar heat source during the cool down process. Results demonstrate that the measured hardness (478±7 HV) of the material processed using in situ heat treatment similar to that of peak-aged Inconel 718. Large solidification grains and cracks formed, which are identified as the likely mechanism leading to failure of tensile tests of the in situ heat treatment material under loading. Despite poor tensile performance, the technique proposed was shown to successively age Alloy 718 (increase precipitate size and hardness) without removing the sample from the process chamber, which can reduce the number of process steps in producing a part. Tighter controls on processing temperature during layer melting to lower process temperature and selective heating during in situ heat treatment to reduce over-sintering are proposed as methods for improving the process.

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Initial examination of fuel compacts and TRISO particles from the US AGR-2 irradiation test

Hunn

Baldwin

Montgomery

et al. 2018

Nuclear Engineering and Design

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AGR-2 As-Irradiated UCO Compact 5-4-2 PIE Report

Hunn

Gerczak

Montgomery

et al. 2018

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Production of near‐full density uranium nitride microspheres with a hot isostatic press

et al. 2018

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Depleted uranium nitride (UN) kernels with diameters ranging from 420 to 858 microns and theoretical densities (TD) between 87 and 91 percent were postprocessed using a hot isostatic press (HIP) in an argon gas media. This treatment was shown to increase the TD up to above 97%. Uranium nitride is highly reactive with oxygen. Therefore, a novel crucible design was implemented to remove impurities in the argon gas via in situ gettering to avoid oxidation of the UN kernels. The density before and after each HIP procedure was calculated from average weight, volume, and ellipticity determined with established characterization techniques for particle. Micrographs confirmed the nearly full densification of the particles using the gettering approach and HIP processing parameters investigated in this work.

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Development of a Radial Deconsolidation Method

Helmreich

Montgomery

Hunn

2015

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