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Folgar-Tucker Model

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The Folgar-Tucker-Equation (FTE) is a widespread and commercially applied model to describe the fiber orientation in injection molding simulations of fiber composites.

The equation is based on Jeffrey's equation for fibers suspended in melts, but, in addition, accounts for fiber-fiber interactions.[1] Tucker and Advani then integrate over an ensemble of fibers and hence obtain an evolution equation for the orientation/alignment tensor[2] as a Field (physics). A compact way to express it is[3]

The scalar quantities are the shear rate , the interaction coefficient C (for an isotropic diffusion) and the parameter accounting for the fibers aspect ratio . is a fourth order tensor. Normally, is expressed as a function of A. The detection of the best suited function is known as closure problem. D and W are respectively the symmetric and antisymmetric part of the velocity gradient, while 1 represents the unit tensor. represents a contraction over two indices.

Thus the Folgar Tucker is an differential equation for the second order tensor A, namely the orientation tensor. This evolution equation is in the frame of continuum mechanics and is coupled to the velocity field.

Since different closure forms can be inserted, many possible formulations of the equations are possible.[4] For most of the closure forms the FTE results in a nonlinear differential equation (though a Lemma to linearize it for some popular closure was introduced [5]).

Analytical solutions to some versions of the FTE consists of both exponential, trigonometrical and hyperbolic functions.[5]

Numerically the FTE is solved also in commercial software for injection molding simulations. [6] [7]

References

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  1. ^ F. Folgar and C. L. Tucker (1984). "Orientation Behavior of Fibers in Concentrated Suspensions". Journal of Reinforced Plastics and Composites. 3 (2): 98–119. Bibcode:1984JRPC....3...98F. doi:10.1177/073168448400300201. S2CID 137183305.
  2. ^ S. G. Advani and C. L. Tucker (1987). "The use of tensors to describe and predict fiber orientation in short fiber composites". Journal of Rheology. 31 (8): 751–784. Bibcode:1987JRheo..31..751A. doi:10.1122/1.549945.
  3. ^ C. L. Tucker and J.G. O'Gara and J. Wang (2008). "An objective model for slow orientation kinetics in concentrated fiber suspensions: Theory and rheological evidence". Journal of Rheology. 52 (5): 751–784. Bibcode:2008JRheo..52.1179W. doi:10.1122/1.2946437.
  4. ^ Peter K. Kennedy; Rong Zheng (2013). Flow Analysis of Injections Molds. Hanser. pp. 80–84.
  5. ^ a b A. Winters and C. Papenfuss and M. Karow (2022). "Benchmarking solutions of the Folgar–Tucker-Equation and its reduction to a linear problem for non-linear closure forms". Journal of Non-Newtonian Fluid Mechanics. 310: 104922. doi:10.1016/j.jnnfm.2022.104922. hdl:20.500.11850/577274. S2CID 252928015.
  6. ^ "Moldflow's fiber orientation models (Theory)". Retrieved October 23, 2022.
  7. ^ "Moldex3D Launches New Long Fiber Orientation Prediction in R11". Retrieved October 23, 2022.