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A few Aspects of the Current Understanding of DPF Materials Thermal and Mechanical Properties
(2016)
Bi-continuous porous ceramics for filtration applications possess a particularly complicated microstructure, whereby porosity and solid matter are intermingled. Moreover, they very often display a microcrack network, resulting from the strong anisotropy of the microscopic coefficient of thermal expansion (CTE). Mechanical, thermal, and filtration properties, they all strongly depend on the morphology of both solid matter and porosity, and on the degree of microcracking (also, the microcrack density), which is in its turn tightened to the grain size.
Recent industrial and academic research has enormously progressed in understanding the microstructure-property-performance relationships existing in these complicated materials:
- Using 3D computed tomography (CT) at different resolutions, and several X-ray refraction-based techniques, porosity and pore orientation could be quantitatively evaluated (in the example of cordierite).
- Neutron and X-ray Diffraction has been instrumental to disclose a) the non-linear character of the stress-strain response, and b) the negative CTE of these materials, and its consequences on the materials properties;
- Analytical and numerical models have been elaborated to rationalize these behaviours in terms of microcracking and microstructural features.
Here these results will be reviewed, and a outlook at (some of the) outstanding problems will be given.