A Combined Discrete Event—Agent Based Approach to Modeling Tensile Strength of One-Dimensional Fibrous Materials. Face Validation and Effect of the Basic Model Parameters

Abstract: A combined method of discrete event and agent based modelling has been applied to the computer modelling and simulation of the tensile strength of one-dimensional fibrous materials (ODFM). This combined method is based on the concept of discrete event simulation as being applied to the modeling of the structure of the fiber flow and on the concept of agent based modelling for modelling and simulation of the fiber interaction within the structure of the fibrous material. Frictional and traction forces arise as … Show more

“…Cherkassky et al. [17] built a model of one-dimensional fibrous materials tensile strength based on the slippage effect and only frictional and traction forces determined the tensile strength in this kind of the model. Maybe this model suited for the glass fiber felts with no resin content (as shown in Figure 7(a)), because tensile strength of these samples were mainly based on both the tensile strength of fibers and the friction between the fibers.…”

Characterization of structure and physical properties of centrifugal glass fiber felts and preparation technology

“…Cherkassky et al. [17] built a model of one-dimensional fibrous materials tensile strength based on the slippage effect and only frictional and traction forces determined the tensile strength in this kind of the model. Maybe this model suited for the glass fiber felts with no resin content (as shown in Figure 7(a)), because tensile strength of these samples were mainly based on both the tensile strength of fibers and the friction between the fibers.…”

Characterization of structure and physical properties of centrifugal glass fiber felts and preparation technology