A correlational study of process parameters on properties of low-pressure cold sprayed copper coatings

Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity percentage, thickness, and deposition efficiency of the obtained coatings as a function of process input variables such as nozzle type, standoff distance, and...

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Published in	International journal of advanced manufacturing technology Vol. 125; no. 9-10; pp. 4679 - 4691
Main Authors	Hernández-Hernández, Maricruz, González-Mejía, Rodrigo, Mercado-Lemus, Victor Hugo, Gallegos-Melgar, Adriana, Pereyra, Isabel, Muñoz-Saldaña, Juan, Mayén, Jan
Format	Journal Article
Language	English
Published	London Springer London 01.04.2023 Springer Nature B.V
Subjects	Aluminum CAE) and Design Coatings Cold spraying Computer-Aided Engineering (CAD Copper Correlational studies Data acquisition Engineering Industrial and Production Engineering Low pressure Mathematical analysis Mechanical Engineering Media Management Nozzles Original Article Porosity Process parameters Substrates Thickness Velocity Inferential study Cold spraying Statistical modeling Copper coatings Low-pressure cold spraying
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Abstract	Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity percentage, thickness, and deposition efficiency of the obtained coatings as a function of process input variables such as nozzle type, standoff distance, and the particle in-flight velocity before impact on the substrate. Coatings were produced by the LPCS process with copper powder deposited onto aluminum 6061 substrates, using two different nozzle shapes (rectangular and round) and two standoff distances (SOD) of 12.5 and 22.5 mm. It was found that nozzle type is the process input parameter with the most substantial contribution to the final coating properties. Particle in-flight velocity decreased by 38% at the standoff distance of 22.5 mm with the rectangular nozzle shape. In contrast, at the same standoff distance for the round nozzle shape, the in-flight particle velocity only diminished by 15%. The rectangular nozzle exhibits the uppermost change of in-flight particle velocity, impacting the particles at a very high speed. This could cause a high percentage of rebounded particles, diminishing the thickness and increasing the porosity percent. It was concluded that the round nozzle type is recommended to achieve coatings with low porosity levels without deep dependence on the standoff distance. This conclusion applies to the experimental conditions of this study with the given geometrical nozzle features.
AbstractList	Abstract Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity percentage, thickness, and deposition efficiency of the obtained coatings as a function of process input variables such as nozzle type, standoff distance, and the particle in-flight velocity before impact on the substrate. Coatings were produced by the LPCS process with copper powder deposited onto aluminum 6061 substrates, using two different nozzle shapes (rectangular and round) and two standoff distances (SOD) of 12.5 and 22.5 mm. It was found that nozzle type is the process input parameter with the most substantial contribution to the final coating properties. Particle in-flight velocity decreased by 38% at the standoff distance of 22.5 mm with the rectangular nozzle shape. In contrast, at the same standoff distance for the round nozzle shape, the in-flight particle velocity only diminished by 15%. The rectangular nozzle exhibits the uppermost change of in-flight particle velocity, impacting the particles at a very high speed. This could cause a high percentage of rebounded particles, diminishing the thickness and increasing the porosity percent. It was concluded that the round nozzle type is recommended to achieve coatings with low porosity levels without deep dependence on the standoff distance. This conclusion applies to the experimental conditions of this study with the given geometrical nozzle features. Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity percentage, thickness, and deposition efficiency of the obtained coatings as a function of process input variables such as nozzle type, standoff distance, and the particle in-flight velocity before impact on the substrate. Coatings were produced by the LPCS process with copper powder deposited onto aluminum 6061 substrates, using two different nozzle shapes (rectangular and round) and two standoff distances (SOD) of 12.5 and 22.5 mm. It was found that nozzle type is the process input parameter with the most substantial contribution to the final coating properties. Particle in-flight velocity decreased by 38% at the standoff distance of 22.5 mm with the rectangular nozzle shape. In contrast, at the same standoff distance for the round nozzle shape, the in-flight particle velocity only diminished by 15%. The rectangular nozzle exhibits the uppermost change of in-flight particle velocity, impacting the particles at a very high speed. This could cause a high percentage of rebounded particles, diminishing the thickness and increasing the porosity percent. It was concluded that the round nozzle type is recommended to achieve coatings with low porosity levels without deep dependence on the standoff distance. This conclusion applies to the experimental conditions of this study with the given geometrical nozzle features.
Author	González-Mejía, Rodrigo Hernández-Hernández, Maricruz Muñoz-Saldaña, Juan Gallegos-Melgar, Adriana Mayén, Jan Pereyra, Isabel Mercado-Lemus, Victor Hugo
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Snippet	Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity percentage,... Abstract Here, statistics descriptive and inferential were employed to understand the acquired data from the process output variables such as porosity...
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SubjectTerms	Aluminum CAE) and Design Coatings Cold spraying Computer-Aided Engineering (CAD Copper Correlational studies Data acquisition Engineering Industrial and Production Engineering Low pressure Mathematical analysis Mechanical Engineering Media Management Nozzles Original Article Porosity Process parameters Substrates Thickness Velocity
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Title	A correlational study of process parameters on properties of low-pressure cold sprayed copper coatings
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