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Powder Bed Layer Characteristics: The Overseen First-Order Process Input
Powder Bed Layer Characteristics: The Overseen First-Order Process Input
by Lavery, N. P. , Mindt, H. W. , Holmes, M. A. , Brown, S. G. R. , Megahed, M.
in Additive manufacturing / Characterization and Evaluation of Materials / Chemistry and Materials Science / Coating / Construction / Economics / Heat sources / Materials Science / Mathematical models / Metallic Materials / Nanotechnology / Numerical analysis / Packing density / Physical metallurgy / Powder metallurgy / Structural Materials / Surfaces and Interfaces / Symposium: Additive Manufacturing: Building the Pathway to Process and Material Qualification / Tables (data) / Thin Films / Titanium base alloys / Titanium oxide powders
2016
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Powder Bed Layer Characteristics: The Overseen First-Order Process Input
by Lavery, N. P. , Mindt, H. W. , Holmes, M. A. , Brown, S. G. R. , Megahed, M.
in Additive manufacturing / Characterization and Evaluation of Materials / Chemistry and Materials Science / Coating / Construction / Economics / Heat sources / Materials Science / Mathematical models / Metallic Materials / Nanotechnology / Numerical analysis / Packing density / Physical metallurgy / Powder metallurgy / Structural Materials / Surfaces and Interfaces / Symposium: Additive Manufacturing: Building the Pathway to Process and Material Qualification / Tables (data) / Thin Films / Titanium base alloys / Titanium oxide powders
2016
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Powder Bed Layer Characteristics: The Overseen First-Order Process Input
Powder Bed Layer Characteristics: The Overseen First-Order Process Input
by Lavery, N. P. , Mindt, H. W. , Holmes, M. A. , Brown, S. G. R. , Megahed, M.
in Additive manufacturing / Characterization and Evaluation of Materials / Chemistry and Materials Science / Coating / Construction / Economics / Heat sources / Materials Science / Mathematical models / Metallic Materials / Nanotechnology / Numerical analysis / Packing density / Physical metallurgy / Powder metallurgy / Structural Materials / Surfaces and Interfaces / Symposium: Additive Manufacturing: Building the Pathway to Process and Material Qualification / Tables (data) / Thin Films / Titanium base alloys / Titanium oxide powders
2016

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Powder Bed Layer Characteristics: The Overseen First-Order Process Input
Powder Bed Layer Characteristics: The Overseen First-Order Process Input
Journal Article

Powder Bed Layer Characteristics: The Overseen First-Order Process Input

Lavery, N. P.,
Mindt, H. W.,
Holmes, M. A.,
Brown, S. G. R.,
Megahed, M.
2016
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Overview
Powder Bed Additive Manufacturing offers unique advantages in terms of manufacturing cost, lot size, and product complexity compared to traditional processes such as casting, where a minimum lot size is mandatory to achieve economic competitiveness. Many studies—both experimental and numerical—are dedicated to the analysis of how process parameters such as heat source power, scan speed, and scan strategy affect the final material properties. Apart from the general urge to increase the build rate using thicker powder layers, the coating process and how the powder is distributed on the processing table has received very little attention to date. This paper focuses on the first step of every powder bed build process: Coating the process table. A numerical study is performed to investigate how powder is transferred from the source to the processing table. A solid coating blade is modeled to spread commercial Ti-6Al-4V powder. The resulting powder layer is analyzed statistically to determine the packing density and its variation across the processing table. The results are compared with literature reports using the so-called “rain” models. A parameter study is performed to identify the influence of process table displacement and wiper velocity on the powder distribution. The achieved packing density and how that affects subsequent heat source interaction with the powder bed is also investigated numerically.
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Publisher
Springer US,Springer Nature B.V
Subject

Additive manufacturing

/ Characterization and Evaluation of Materials

/ Chemistry and Materials Science

/ Coating

/ Construction

/ Economics

/ Heat sources

/ Materials Science

/ Mathematical models

/ Metallic Materials

/ Nanotechnology

/ Numerical analysis

/ Packing density

/ Physical metallurgy

/ Powder metallurgy

/ Structural Materials

/ Surfaces and Interfaces

/ Symposium: Additive Manufacturing: Building the Pathway to Process and Material Qualification

/ Tables (data)

/ Thin Films

/ Titanium base alloys

/ Titanium oxide powders

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