high temperature thermal diffusivity of combustion synthesized samples dominique vrel cnrs-limhp,...
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High temperature thermal High temperature thermal diffusivity of combustion diffusivity of combustion
synthesized samplessynthesized samples
Dominique VrelDominique VrelCNRS-LIMHP, UPR 1311, CNRS-LIMHP, UPR 1311,
99 avenue Jean-Baptiste Clément, 93430 Villetaneuse, France99 avenue Jean-Baptiste Clément, 93430 Villetaneuse, France
Nikhil Karnatak, Ellen M. Heian, Sylvain Dubois, Nikhil Karnatak, Ellen M. Heian, Sylvain Dubois, Marie-France Beaufort, Benoît CochepinMarie-France Beaufort, Benoît Cochepin
CNRS-LMP, UMR 6630, Bât. SP2MI, Bd M. & P. Curie, BP 30179CNRS-LMP, UMR 6630, Bât. SP2MI, Bd M. & P. Curie, BP 3017986962 Futuroscope-Chasseneuil du Poitou Cedex, France86962 Futuroscope-Chasseneuil du Poitou Cedex, France
Modeling studies Modeling studies
Equation in 1D with the following approximation :
Importance in modeling before scaling-up; in determination of kinetic parameters such as use of Boddington model (thermal profile analysis, TPA)
Measuring thermal diffusivityMeasuring thermal diffusivity
Impossible at high temperature on reactantsImpossible at high temperature on reactants
Easy at low temperature on reactants and Easy at low temperature on reactants and productsproducts
Not possible during reaction Not possible during reaction (coupled equations with kinetics)(coupled equations with kinetics)
… … Not practically possible on products at high Not practically possible on products at high temperature: retemperature: re--crystallization, sintering, stress crystallization, sintering, stress relaxation, homogenization of structure and relaxation, homogenization of structure and composition (long time at high temperature)composition (long time at high temperature)
We need to find a way to determine thermalWe need to find a way to determine thermal diffusivity as fast as possible, just after reactiondiffusivity as fast as possible, just after reaction
A weird sampleA weird sample
IR streak image - principleIR streak image - principle
IR streak image - resultIR streak image - result
Reference frameReference frame
Igniter is onIgniter is on
Reaction propagatesReaction propagates
Reaction pausesReaction pauses
Reaction re-starts – Hot spotReaction re-starts – Hot spot
TRXRD – no second reactionTRXRD – no second reaction
XRD, 25 ppsXRD, 25 pps Left shift = temperature Left shift = temperature
increaseincrease2d sin 2d sin = = ififdd
1 reaction only1 reaction only 1 re-heating1 re-heating
can be used to estimate can be used to estimate thermal diffusivitythermal diffusivity
Hot spot diffusionHot spot diffusion
ii for the space step; for the space step; nn for the time step for the time step 77 space steps (77 pixels on the IR image)77 space steps (77 pixels on the IR image) 25 time steps per second25 time steps per second 2 unknowns: 2 unknowns: and and
Golden section searchGolden section search
To determine the unknowns, starting from an To determine the unknowns, starting from an experimental temperature profile, we model the experimental temperature profile, we model the evolution of temperature with arbitrary values of evolution of temperature with arbitrary values of and and , and then minimize the sum of differences , and then minimize the sum of differences between the final calculated profile and the final between the final calculated profile and the final experimental profileexperimental profile
Flow chartFlow chart
Modeling resultsModeling results
Thermal diffusivity – resultsThermal diffusivity – results
Weaker hot spotsWeaker hot spots
with nickelwith nickel with finer Cwith finer C
Finer C particlesFiner C particles
Calculated thermal diffusivityCalculated thermal diffusivity
And before reaction ?And before reaction ?
Noisy dataNoisy data Calculated value of thermal diffusivity sets the Calculated value of thermal diffusivity sets the
lower limit for the real value : method measures lower limit for the real value : method measures only the part of the heat flowing through the only the part of the heat flowing through the sample that contributes to the temperature sample that contributes to the temperature increase and neglects the part that contributes to increase and neglects the part that contributes to the heat losses.the heat losses.
System might reach equilibrium, where the heat System might reach equilibrium, where the heat flowing through the sample only compensate the flowing through the sample only compensate the heat lossesheat losses
Results before reactionResults before reaction
SummarySummary
Conclusions Conclusions Method is easy and seems trustworthyMethod is easy and seems trustworthy
ReferencesReferences Dominique Vrel, Nikhil Karnatak, Marie-France Beaufort, Sylvain Dubois, In-situ Dominique Vrel, Nikhil Karnatak, Marie-France Beaufort, Sylvain Dubois, In-situ
measurement of high-temperature thermal diffusivity in a combustion-synthesized measurement of high-temperature thermal diffusivity in a combustion-synthesized ceramic, ceramic, European Physical Journal BEuropean Physical Journal B 3333 (2003), 31-39. (2003), 31-39.
Dominique Vrel, Nikhil Karnatak, Ellen M. Heian, Sylvain Dubois and Marie-France Dominique Vrel, Nikhil Karnatak, Ellen M. Heian, Sylvain Dubois and Marie-France Beaufort, Measurement of thermal diffusivities during self-propagating high Beaufort, Measurement of thermal diffusivities during self-propagating high temperature synthesis, submitted, temperature synthesis, submitted, International Journal of Self-Propagating High-International Journal of Self-Propagating High-Temperature Synthesis. Temperature Synthesis.
Should be applied with careShould be applied with care Cannot be used on any sample; needs instabilityCannot be used on any sample; needs instability Could be improved by a « controlled hot spot ».Could be improved by a « controlled hot spot ».