John Coleman scite author profile

John Coleman

3Publications

37Citation Statements Received

36Citation Statements Given

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Affiliations

Oak Ridge National Laboratory, Purdue University West Lafayette, University of Mississippi Medical Center

Publications

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Sensitivity of Thermal Predictions to Uncertain Surface Tension Data in Laser Additive Manufacturing

Coleman

Plotkowski

Stump

et al. 2020

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To understand the process-microstructure relationships in additive manufacturing (AM), it is necessary to predict the solidification characteristics in the melt pool. The present study investigates the influence of Marangoni driven fluid flow on the predicted melt pool geometry and solidification dynamics using a continuum finite volume model (FVM). A calibrated laser absorptivity was determined by comparing the model predictions (neglecting fluid flow) against melt pool dimensions obtained from single laser melt experiments on a nickel super alloy 625 (IN625) plate. Using this calibrated efficiency, the predicted melt pool geometries agree well with experiments across a range of process conditions. Using a surface tension gradient recommended for IN625 tends to overpredict the influence of convective heat transfer, but the use of an intermediate value reported from experimental measurements of a similar nickel super alloy produces excellent results. Despite its significant effect on the melt pool geometry predictions, fluid flow was found to have a small effect on the predicted solidification conditions compared to processing conditions. This result suggests that under certain circumstances, a model only considering conductive heat transfer is sufficient for approximating process-microstructure relationships in laser additive manufacturing. Extending the model to multiple laser passes then showed that fluid flow also has a small effect on the solidification conditions compared to the transient variation within the process. Limitations of the current model and areas of improvement, including uncertainties associated with the phenomenological inputs to the model, are discussed.

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Structural observations of time dependent oscillatory behavior of CuIICl2 solutions measured via extended X-ray absorption fine structure

Morré¹,

Heald

Coleman

et al. 2007

Journal of Inorganic Biochemistry

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Reconstruction of partial laryngopharyngectomy defects

et al. 1997

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John Coleman

Sensitivity of Thermal Predictions to Uncertain Surface Tension Data in Laser Additive Manufacturing

Structural observations of time dependent oscillatory behavior of CuIICl2 solutions measured via extended X-ray absorption fine structure

Reconstruction of partial laryngopharyngectomy defects

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