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CLC number: TH12

On-line Access: 2008-01-18

Received: 2007-09-10

Revision Accepted: 2007-11-01

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Journal of Zhejiang University SCIENCE A 2008 Vol.9 No.3 P.338-345


Simulation and analysis of resin flow in injection machine screw

Author(s):  Ling-feng LI, Samir MEKID

Affiliation(s):  College of Mechanical and Energy Engineering, Zhejiang University, Hangzhou 310027, China; more

Corresponding email(s):   melilf@zju.edu.cn

Key Words:  Screw, Plasticity, Velocity distribution, Temperature distribution

Ling-feng LI, Samir MEKID. Simulation and analysis of resin flow in injection machine screw[J]. Journal of Zhejiang University Science A, 2008, 9(3): 338-345.

@article{title="Simulation and analysis of resin flow in injection machine screw",
author="Ling-feng LI, Samir MEKID",
journal="Journal of Zhejiang University Science A",
publisher="Zhejiang University Press & Springer",

%0 Journal Article
%T Simulation and analysis of resin flow in injection machine screw
%A Ling-feng LI
%A Samir MEKID
%J Journal of Zhejiang University SCIENCE A
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%N 3
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%@ 1673-565X
%D 2008
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.A071471

T1 - Simulation and analysis of resin flow in injection machine screw
A1 - Ling-feng LI
A1 - Samir MEKID
J0 - Journal of Zhejiang University Science A
VL - 9
IS - 3
SP - 338
EP - 345
%@ 1673-565X
Y1 - 2008
PB - Zhejiang University Press & Springer
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DOI - 10.1631/jzus.A071471

A method with simulation and analysis of the resin flow in a screw is presented to ease the control of some problems that may affect the efficiency and the quality of the product among existing screws in an injection machine. The physical model of a screw is established to represent the stress, the strain, the relationship between velocity and stress, and the temperature of the cells. In this paper, a working case is considered where the velocity and the temperature distributions at any section of the flow are obtained. The analysis of the computational results shows an ability to master various parameters depending on the specifications.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article


[1] Bogaerds, A.C.B., Verbeeten, W.M.H., Peters, G.W.M., Baaijens, F.P.T., 1999. 3D Viscoelastic analysis of a polymer solution in a complex flow. Computer Methods in Applied Mechanics and Engineering, 180(3-4):413-430.

[2] Bogaerds, A.C.B., Hulsen, M.A., Peters, G.W.M., Baaijens, F.P.T., 2004. Stability analysis of injection molding flows. Journal of Rheology, 48(4):765-785.

[3] Cheung, A., Yu, Y., Pochiraju, K., 2004. Three-dimensional finite element simulation of curing of polymer composites. Finite Elements in Analysis and Design, 40(8):895-912.

[4] Das, C., Inkson, N.J., Read, D.J., Kelmanson, M.A., McLeish, T.C.B., 2006. Computational linear rheology of general branch-on-branch polymers. Journal of Rheology, 50(2):207-234.

[5] Ekh, J., Schön, J., 2008. Finite element modeling and optimization of load transfer in multi-fastener joints using structural elements. Composite Structures, 82(2):245-256.

[6] Ghoreishy, M.H.R., Razavi-Nouri, M., Naderi, G., 2005. Finite element analysis of a thermoplastic elastomer melt flow in the metering region of a single screw extruder. Computational Materials Science, 34(4):389-396.

[7] Hasanpour, K., Ziaei-Rad, S., 2007. Finite Stain Viscoelastic-plastic Deformation of Polymers Using Finite Element Simulation. Proceedings of the 9th International Conference on Numerical Methods in Industrial Forming Processes, p.1301-1306.

[8] Kessels, J.F.A., Jonker, A.S., Akkerman, R., 2007. Fully 2½D flow modeling of resin infusion under flexible tooling using unstructured meshes and wet and dry compaction properties. Composites Part A: Applied Science and Manufacturing, 38:51-60.

[9] Lerdwijitjarud, W., Sinvat, A., Larson, R.G., 2004. Influence of dispersed-phase elasticity on steady-state deformation and breakup of droplets in simple shearing flow of immiscible polymer blends. Journal of Rheology, 48(4):843-862.

[10] Lesniak, D., Libura, W., 2007. Extrusion of sections with varying thickness through pocket dies. Journal of Materials Processing Technology, 194(1-3):38-45.

[11] Mackerle, J., 2003. Finite element analysis and simulation of polymers—an addendum: a bibliography (1996-2002). Modelling and Simulation in Materials Science and Engineering, 11(2):195-231.

[12] Restrepo, O., Hsiao, K.T., Rodriguez, A., Minaie, B., 2007. Development of adaptive injection flow rate and pressure control algorithms for resin transfer molding. Composites Part A: Applied Science and Manufacturing, 38(6):1547-1568.

[13] Russo, A., Zuccarello, B., 2007. Experimental and numerical evaluation of the mechanical behaviour of GFRP sandwich panels. Composite Structures, 81(4):575-586.

[14] Savarmand, S., Heniche, M., Béchard, V., Bertrand, F., Carreau, P.J., 2007. Analysis of the vane rheometer using 3D finite element simulation. Journal of Rheology, 51(2):161-177.

[15] Shojaei, A., 2006. Numerical simulation of three-dimensional flow and analysis of filling process in compression resin transfer moulding. Composites Part A: Applied Science and Manufacturing, 37(9):1434-1450.

[16] Shojaei, A., Ghaarian, S.R., Karimian, S.M., 2004. Three-dimensional process cycle simulation of composite parts manufactured by resin transfer molding. Composite Structures, 65(3-4):381-390.

[17] Wilczyñski, K., 2001. SSEM: a computer model for a polymer single-screw extrusion. Journal of Materials Processing Technology, 109(3):308-313.

[18] Wilczyñski, K., Tyszkiewicz, A., Szymaniak, Z., 2001. Modeling for morphology development during single-screw extrusion of LDPE/PS blend. Journal of Materials Processing Technology, 109(3):320-323.

[19] Xu, C.D., Hua, B.H., 1983. The Theory, Method and Programs of the Mechanics Finite Element. Waterpower Publishing Company, Beijing, p.33-36 (in Chinese).

[20] Zampaloni, M., Pourboghrat, F., Yankovich, S.A., Rodgers, B.N., Moore, J., Drzal, L.T., Mohanty, A.K., Misra, M., 2007. Kenaf natural fiber reinforced polypropylene composites: A discussion on manufacturing problems and solutions. Composites Part A: Applied Science and Manufacturing, 38(6):1569-1580.

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