Specifications
Number of references: 8
Main heading: Computer simulation
Controlled terms: Neural networks
Uncontrolled terms: Multi-reservoir systems - Neural network model - Operating
policies - Reservoir operating rules - Reservoir systems - Simulation model - Supervised
learning approaches - Yellow river
Classification code: 723.4 Artificial Intelligence - 723.5 Computer Applications
DOI: 10.1007/0-387-29295-0-56
Database: Compendex
Compilation and indexing terms, © 2013 Elsevier Inc.
2.
Accession number: 20132616453998
Title: Preparation of amorphous alloy atomization process numerical simulation and the
formulation of process parameters by bar plasma spray
Authors: Feng, La-Jun1 ; Wang, Guan-Chong1 ; Yan, Ai-Jun1, 2/冯拉俊;王官充;闫爱军
Author affiliation:
1 College of Materials Science and Engineering, Xi'an University of Technology, Xi'an 710048,
China
2 Shaanxi Electricity Power Research Institute, Xi'an 710054, China
Corresponding author: Wang, G.-C.
Source title: Gongneng Cailiao/Journal of Functional Materials
Abbreviated source title: Gongneng Cailiao
Volume: 44
Issue: 7
Issue date: April 15, 2013
Publication year: 2013
Pages: 1059-1062
Language: Chinese
ISSN: 10019731
CODEN: GOCAEA
Document type: Journal article (JA)
Publisher: Journal of Functional Materials, P.O. Box 1512, Chongqing, 630700, China
Abstract: In accordance with past achievement in one-dimensional stable fluid dynamic by
flame spray, an atomization mechanism was provided in preparation of amorphous coating by
bar material plasma spraying. It is found that the measured particle median diameter agree well
with those obtained by numerical simulation. It shows that the mechanism of atomization is
feasible by bar material plasma spaying. Two main process parameters are optimized to produce
ferrous amorphous coating; the parameters includes primary gas pressure and secondary gas
pressure. The results show that it can be obtained amorphous coating with 3 mm crystal bar
Fe80P13C7 and Fe72Cr8P13C7. The spray coating process parameters are as follows: spraying
electric voltage of 55 V, spraying electric current of 600 A, distance between nozzle and bar of 4
mm, bar velocity of 50 mm/min, spraying distance of 100 mm, spraying angle about of 90°,
primary gas pressure of 0.85 MPa and secondary gas pressure of 0.32 MPa.