Simulation of mold filling and prediction of gas entrapment on practical high pressure die castings

Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were proposed to describe shape and location of free surfaces in casting mold filling processes. A mathematical model of the filling process was propo...

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Published inTransactions of Nonferrous Metals Society of China Vol. 20; no. 11; pp. 2064 - 2070
Main Author 赵海东 白砚飞 欧阳晓贤 董普云
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2010
State Engineering Research Center for Metallic Materials Net-shape Forming,South China University of Technology, Guangzhou 510640, China
Subjects
Die casting
Entrapment
Finite difference method
gas entrapment
high pressure die casting
Mathematical analysis
Mathematical models
mold filling
Molds
Porosity
Pressure die casting
Tracking
数学模型
表面形状
铸件充型
gas entrapment
high pressure die casting
mold filling
Online AccessGet full text
ISSN1003-6326
DOI10.1016/S1003-6326(09)60418-0

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Abstract Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were proposed to describe shape and location of free surfaces in casting mold filling processes. A mathematical model of the filling process was proposed specially considering the mass, momentum and heat transfer in the vicinity of free surfaces. Furthermore, a method for gas entrapment was established by tracking flow of entrapped gas. The model and method were applied to practical ADC1 high pressure die castings. The gas entrapment prediction was compared with the fraction and maximum size of porosities in the different casting parts. The comparison shows validity of the proposed model and method. The study indicates that final porosities in high pressure die castings are dependent on both gas entrapment during mold filling process and pressure transfer within solidification period.
AbstractList Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were proposed to describe shape and location of free surfaces in casting mold filling processes. A mathematical model of the filling process was proposed specially considering the mass, momentum and heat transfer in the vicinity of free surfaces. Furthermore, a method for gas entrapment was established by tracking flow of entrapped gas. The model and method were applied to practical ADC1 high pressure die castings. The gas entrapment prediction was compared with the fraction and maximum size of porosities in the different casting parts. The comparison shows validity of the proposed model and method. The study indicates that final porosities in high pressure die castings are dependent on both gas entrapment during mold filling process and pressure transfer within solidification period.
TG1; Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were proposed to describe shape and location of free surfaces in casting mold filling processes. A mathematical model of the filling process was proposed specially considering the mass, momentum and heat transfer in the vicinity of free surfaces. Furthermore, a method for gas entrapment was established by tracking flow of entrapped gas. The model and method were applied to practical ADC1 high pressure die castings. The gas entrapment prediction was compared with the fraction and maximum size of porosities in the different casting parts. The comparison shows validity of the proposed model and method. The study indicates that final porosities in high pressure die castings are dependent on both gas entrapment during mold filling process and pressure transfer within solidification period.
Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were proposed to describe shape and location of free surfaces in casting mold filling processes. A mathematical model of the filling process was proposed specially considering the mass, momentum and heat transfer in the vicinity of free surfaces. Furthermore, a method for gas entrapment was established by tracking flow of entrapped gas. The model and method were applied to practical ADC1 high pressure die castings. The gas entrapment prediction was compared with the fraction and maximum size of porosities in the different casting parts. The comparison shows validity of the proposed model and method. The study indicates that final porosities in high pressure die castings are dependent on both gas entrapment during mold filling process and pressure transfer within solidification period.
Author 赵海东 白砚飞 欧阳晓贤 董普云
AuthorAffiliation State Engineering Research Center for Metallic Materials Net-shape Forming, South China University of Technology, Guangzhou 510640, China
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Keywords gas entrapment
high pressure die casting
mold filling
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gas entrapment
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mold filling
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State Engineering Research Center for Metallic Materials Net-shape Forming,South China University of Technology, Guangzhou 510640, China
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Snippet Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were...
Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were...
TG1; Element parameters including volume filled ratio, surface dimensionless distance, and surface filled ratio for DFDM (direct finite difference method) were...
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SubjectTerms Die casting
Entrapment
Finite difference method
gas entrapment
high pressure die casting
Mathematical analysis
Mathematical models
mold filling
Molds
Porosity
Pressure die casting
Tracking
数学模型
表面形状
铸件充型
Title Simulation of mold filling and prediction of gas entrapment on practical high pressure die castings
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https://dx.doi.org/10.1016/S1003-6326(09)60418-0
https://www.proquest.com/docview/855714538
https://d.wanfangdata.com.cn/periodical/zgysjsxb-e201011006
Volume 20
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