Fiber motion submodel

Fiber Motion Submodel Thermosetting Matrix Cylinders. 401... 

Consolidation/Fiber Motion Submodel The consolidation and fiber motion submodels evaluate the effects of processing conditions on the interaction between plies. In particular, the consolidation submodel (for thermoplastics) models the bonding between composite plies. The fiber motion submodel (for thermosets) yields the fiber position and fiber volume fraction within the cylinder. 

Solutions to these equations yield the temperature distribution inside the mandrel and inside the composite as a function of time. Degree of cure or crystallinity and matrix viscosity in the composite as a function of time are also determined. This model is the building block for the other submodels. Viscosity calculations are input to the fiber motion submodel. Temperature and cure calculations are input to the stress submodel. Temperature data are also input to the void submodel. 

The fiber motion submodel yields the fiber position during processing. In filament winding, the fiber position is affected by flow of the resin matrix material, expansion of the mandrel, and expansion of the composite. In the fiber motion submodel, only changes in fiber position caused by flow of the matrix are considered. Changes caused by thermal expansion of the mandrel and composite are included in the stress-strain submodel. 

Flow charts with relevant inputs and outputs for each submodel are shown in Figures 13.7 and 13.8 for winding of thermosetting and thermoplastic composite cylinders, respectively. The primary differences between process models for thermosetting and thermoplastic cylinders arise in (1) the method of heating, and (2) the mechanics of consolidation/ fiber motion. 

---