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Simulation of jet-flow solid fraction during spray forming
by
Zi-qiang Pi Xin Lu Yuan Wu Lu-ning Wang Cheng-chang Jia Xuan-hui Qu Wei Zheng Li-zhi Wu Qing-li Shao
in
Alloys
/ Ceramics
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Composites
/ Cooling
/ Corrosion and Coatings
/ Droplets
/ Flow rates
/ Glass
/ Heat transfer
/ High speed tool steels
/ Investigations
/ Jet flow
/ Mass flow rate
/ Materials Science
/ Mathematical models
/ Metallic Materials
/ Natural Materials
/ Numerical models
/ Parameters
/ Powder metallurgy
/ Reynolds number
/ Simulation
/ Size distribution
/ Solids
/ Spray forming
/ Steel
/ Surfaces and Interfaces
/ Thin Films
/ Tribology
/ Velocity
2017
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Simulation of jet-flow solid fraction during spray forming
by
Zi-qiang Pi Xin Lu Yuan Wu Lu-ning Wang Cheng-chang Jia Xuan-hui Qu Wei Zheng Li-zhi Wu Qing-li Shao
in
Alloys
/ Ceramics
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Composites
/ Cooling
/ Corrosion and Coatings
/ Droplets
/ Flow rates
/ Glass
/ Heat transfer
/ High speed tool steels
/ Investigations
/ Jet flow
/ Mass flow rate
/ Materials Science
/ Mathematical models
/ Metallic Materials
/ Natural Materials
/ Numerical models
/ Parameters
/ Powder metallurgy
/ Reynolds number
/ Simulation
/ Size distribution
/ Solids
/ Spray forming
/ Steel
/ Surfaces and Interfaces
/ Thin Films
/ Tribology
/ Velocity
2017
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Simulation of jet-flow solid fraction during spray forming
by
Zi-qiang Pi Xin Lu Yuan Wu Lu-ning Wang Cheng-chang Jia Xuan-hui Qu Wei Zheng Li-zhi Wu Qing-li Shao
in
Alloys
/ Ceramics
/ Characterization and Evaluation of Materials
/ Chemistry and Materials Science
/ Composites
/ Cooling
/ Corrosion and Coatings
/ Droplets
/ Flow rates
/ Glass
/ Heat transfer
/ High speed tool steels
/ Investigations
/ Jet flow
/ Mass flow rate
/ Materials Science
/ Mathematical models
/ Metallic Materials
/ Natural Materials
/ Numerical models
/ Parameters
/ Powder metallurgy
/ Reynolds number
/ Simulation
/ Size distribution
/ Solids
/ Spray forming
/ Steel
/ Surfaces and Interfaces
/ Thin Films
/ Tribology
/ Velocity
2017
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Simulation of jet-flow solid fraction during spray forming
Journal Article
Simulation of jet-flow solid fraction during spray forming
Zi-qiang Pi Xin Lu Yuan Wu Lu-ning Wang Cheng-chang Jia Xuan-hui Qu Wei Zheng Li-zhi Wu Qing-li Shao
2017
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Overview
A numerical model was developed to simulate the jet-flow solid fraction of W18Cr4 V high-speed steel during spray forming. The whole model comprises two submodels: one is an individual droplet model, which describes the motion and thermal behaviors of individual droplets on the basis of Newton’s laws of motion and the convection heat transfer mechanism; the other is a droplet distribution model, which is used to calculate the droplet size distribution. After being verified, the model was used to analyze the effects of parameters, including the initial gas velocity, deposition distance, superheat degree, and the ratio of gas-to-metal mass flow rates, on the jet-flow solid fraction. Finally, an equation to predict the jet-flow solid fraction directly and conveniently according to the parameters was presented. The values predicted by the equation show good agreement with those calculated by the numerical model.
Publisher
University of Science and Technology Beijing,Springer Nature B.V,Institute for Advanced Materials and Technology,University of Science and Technology Beijing,Beijing 100083,China%State Key Laboratory for Advanced Metals and Materials,University of Science and Technology Beijing,Beijing 100083,China%Heye Special Steel Co.,Ltd.,Shijiazhuang 052165,China
Subject
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