Module | Description |
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FiberFind | Identify fibers and binder quantitatively using trained neural networks and determine fiber diameter, fiber orientation, and fiber curvature. Works directly on 3D scans obtained through µCT or FIB/SEM |
GrainFind | Identify grains and pores quantitatively with advanced algorithms. Determine grain volume, diameter distribution, and sphericity. Works directly on 3D scans obtained through µCT or FIB/SEM. |
PoroDict & MatDict | Characterize the properties of pores and solids in porous media and composite materials. |
DiffuDict | Simulate effective diffusivity and tortuosity factor in porous media. |
ConductoDict | Simulate effective thermal conductivity and effective electrical conductivity in porous media and composite materials. |
FlowDict | Simulate flow experiments by solving Stokes, Navier-Stokes or Stokes-Brinkman equations and obtain pressure-velocity curves, flow resistivity, flow velocity, and flow permeability. |
ElastoDict | Simulate effective elastic properties and large deformations, with plasticity, damage and failure, for porous and composite materials. |
FilterDict® | Simulate particle filtration in filter media, filter pleats, honeycomb structures (DPF, GPF), and complete filters with housing, for example of Single Pass or Multi Pass solid-liquid separation and solid-gas separation, and filtration efficiency, filter capacity and filter life time (requires FlowDict). |
BatteryDict | Design and simulate Li-ion batteries. |
AddiDict | Simulate advection and diffusion for the transport of solid particles in liquid- or gas-flow through porous materials (requires FlowDict). |
SatuDict | Simulate saturation-capillary pressure curves, relative conductivity (requires ConductoDict), relative permeability (requires FlowDict), and relative diffusivity (requires DiffuDict). |
AcoustoDict | Simulate acoustic absorption parameters for acoustic models: air flow resistivity (requires FlowDict), viscous and thermal characteristic lengths (requires DiffuDict), open porosity, and tortuosity factor (high and low frequency limit). |