Influence of core box vents distribution on flow dynamics of core shooting process based on experiment and numerical simulation

Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting proc...

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Published in	China foundry Vol. 13; no. 1; pp. 22 - 29
Main Authors	Ni, Chang-jiang, Lu, Gao-chun, Zhang, Qing-dong, Jing, Tao, Wu, Jun-jiao, Yang, Lin-long, Wu, Qin-fang
Format	Journal Article
Language	English
Published	Singapore Springer Singapore 2016 Foundry Journal Agency School of Materials Science and Engineering, Tsinghua University, Beijing 100084, China%Suzhou Mingzhi Technology Co., Ltd., Suzhou 215217, China
Subjects	Engineering Flow (Dynamics) Machines Manufacturing Materials Engineering Metallic Materials Numerical analysis Processes Research & Development Shooting vents distribution; flow dynamics; pressure variation; core shooting process; kinetic-frictional model; two-fluid model vents distribution flow dynamics pressure variation kinetic-frictional model TG231.6/TP391.9 core shooting process two-fluid model
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Abstract	Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting process was investigated based on in situ experimental observations with transparent core box, high-speed camera and pressure measuring system. Attention was focused on the variation of both the flow behavior of sand and pressure curves due to different vents distribution. Taking both kinetic and frictional stress into account, a kinetic-frictional constitutive model was established to describe the internal momentum transfer in the solid phase. Two-fluid model （TFM） simulation was then performed and good agreement was achieved between the experimental and simulated results on both the flow behavior of sand and the pressure curves. It was found that vents distribution has direct effect on the pressure difference of different locations in the core box, which determines the buoyancy force exerting on the sand particles and significantly influences the filling process of core sand.
AbstractList	Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting process was investigated based on in situ experimental observations with transparent core box, high-speed camera and pressure measuring system. Attention was focused on the variation of both the flow behavior of sand and pressure curves due to different vents distribution. Taking both kinetic and frictional stress into account, a kinetic-frictional constitutive model was established to describe the internal momentum transfer in the solid phase. Two-fluid model (TFM) simulation was then performed and good agreement was achieved between the experimental and simulated results on both the flow behavior of sand and the pressure curves. It was found that vents distribution has direct effect on the pressure difference of different locations in the core box, which determines the buoyancy force exerting on the sand particles and significantly influences the filling process of core sand. Key words: vents distribution; flow dynamics; pressure variation; core shooting process; kinetic-frictional model; two-fluid model Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting process was investigated based on in situ experimental observations with transparent core box, high-speed camera and pressure measuring system. Attention was focused on the variation of both the flow behavior of sand and pressure curves due to different vents distribution. Taking both kinetic and frictional stress into account, a kinetic-frictional constitutive model was established to describe the internal momentum transfer in the solid phase. Two-fluid model （TFM） simulation was then performed and good agreement was achieved between the experimental and simulated results on both the flow behavior of sand and the pressure curves. It was found that vents distribution has direct effect on the pressure difference of different locations in the core box, which determines the buoyancy force exerting on the sand particles and significantly influences the filling process of core sand. Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting process was investigated based on in situ experimental observations with transparent core box, high-speed camera and pressure measuring system. Attention was focused on the variation of both the flow behavior of sand and pressure curves due to different vents distribution. Taking both kinetic and frictional stress into account, a kinetic-frictional constitutive model was established to describe the internal momentum transfer in the solid phase. Two-fluid model (TFM) simulation was then performed and good agreement was achieved between the experimental and simulated results on both the flow behavior of sand and the pressure curves. It was found that vents distribution has direct effect on the pressure difference of different locations in the core box, which determines the buoyancy force exerting on the sand particles and significantly influences the filling process of core sand.
Audience	Academic
Author	Chang-jiang Ni Gao-chun Lu Qing-dong Zhang Tao Jing Jun-jiao Wu Lin-long Yang Qin-fang Wu
AuthorAffiliation	School of Materials Science and Engineering, Tsinghua University, Beijing 100084, China Suzhou Mingzhi Technology Co., Ltd., Suzhou 215217, China
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Cites_doi	10.1179/1743133614Y.0000000140 10.1146/annurev.fluid.40.111406.102130 10.1179/136404605225022811 10.1016/S0032-5910(02)00132-8 10.1017/S0022112090001380 10.1016/j.powtec.2007.07.005 10.1016/j.powtec.2007.09.010 10.1017/S0022112084000586 10.1016/S0032-5910(03)00081-0 10.1080/13640461.2003.11819526
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Notes	vents distribution; flow dynamics; pressure variation; core shooting process; kinetic-frictiona model： two-fluid model Core shooting process plays a decisive role in the quality of sand cores, and core box vents distribution is one of the most important factor determining the effectiveness of core shooting process. In this paper, the influence of core box vents distribution on the flow dynamics of core shooting process was investigated based on in situ experimental observations with transparent core box, high-speed camera and pressure measuring system. Attention was focused on the variation of both the flow behavior of sand and pressure curves due to different vents distribution. Taking both kinetic and frictional stress into account, a kinetic-frictional constitutive model was established to describe the internal momentum transfer in the solid phase. Two-fluid model （TFM） simulation was then performed and good agreement was achieved between the experimental and simulated results on both the flow behavior of sand and the pressure curves. It was found that vents distribution has direct effect on the pressure difference of different locations in the core box, which determines the buoyancy force exerting on the sand particles and significantly influences the filling process of core sand. 21-1498/TG
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SubjectTerms	Engineering Flow (Dynamics) Machines Manufacturing Materials Engineering Metallic Materials Numerical analysis Processes Research & Development Shooting vents distribution; flow dynamics; pressure variation; core shooting process; kinetic-frictional model; two-fluid model
Title	Influence of core box vents distribution on flow dynamics of core shooting process based on experiment and numerical simulation
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