Chemical Supercritical Fluid Infiltration of Pyrocarbon with Thermal Gradients: Deposition Kinetics and Multiphysics Modeling

Abstract: The chemical supercritical fluid infiltration process is a recent variation of the chemical vapor infiltration (CVI) process that allows rapid and efficient manufacturing of ceramic-matrix composites (CMCs), albeit still needing optimization. This article proposes a quantitative assessment of the process dynamics through experiments and modeling. The kinetics of carbon deposition were determined through two sets of experiments: CVD on a single filament at pressures between 10 and 50 bar and infiltration at pre… Show more

“…Case #4 has the particularity of using very high-pressure methane as precursor: the conditions can be called supercritical because indeed the critical pressure and temperature of methane are overtaken, but the process is operated in a parameter region where the perfect gas law holds [88]. It is otherwise quite similar to case #2: a vertical carbon resistor and a fibrous preform inserted around it in a cylindrical geometry.…”

“…This process was first patented in 2006 [90] and described in a publication in 2014 [91]; a recent re-assessment of the process has been carried out [88], with a strong focus on thermal measurements. The detailed multi-physics model framework developed for the preceding cases has been adapted to the present one.…”

How is it possible to get optimal infiltration fronts during chemical vapor infiltration with thermal gradients ?

“…Case #4 has the particularity of using very high-pressure methane as precursor: the conditions can be called supercritical because indeed the critical pressure and temperature of methane are overtaken, but the process is operated in a parameter region where the perfect gas law holds [88]. It is otherwise quite similar to case #2: a vertical carbon resistor and a fibrous preform inserted around it in a cylindrical geometry.…”

“…This process was first patented in 2006 [90] and described in a publication in 2014 [91]; a recent re-assessment of the process has been carried out [88], with a strong focus on thermal measurements. The detailed multi-physics model framework developed for the preceding cases has been adapted to the present one.…”

How is it possible to get optimal infiltration fronts during chemical vapor infiltration with thermal gradients ?