Search results for "Front velocity"

showing 3 items of 3 documents

Thermal frontal polymerization with a thermally released redox catalyst

2012

ABSTRACT: We studied thermal frontal polymerization using a re-dox systeminan attempt to lower the temperature of thefrontallypolymerizable system while increasing the front velocity so as toobtain a self-sustaining front in a thinner layer than without theredox components. A cobalt-containing polymer with a meltingpoint of 63 C (Intelimer 6050X11) and cumene hydroperoxidewere used with a triacrylate. The use of the Intelimer decreasedthe front velocity but allowed fronts to propagate in thinner layersand with more filler while still having a pot life of days. Nonplanarmodes of propagation occurred. Fronts propagated faster when6-O-palmitoyl- L -ascorbic acid was used as a reductant. Intere…

CumeneMaterials sciencePolymers and PlasticsRadical polymerizationkineticfrontal polymerizationchemistry.chemical_compoundPolymer chemistryMaterials ChemistryFront velocityredox polymersSettore CHIM/02 - Chimica Fisicaaddition polymerizationchemistry.chemical_classificationAcrylateOrganic ChemistryacrylatePolymeracrylate; addition polymerization; frontal polymerization; kinetics; radical polymerization; redox polymersAscorbic acidradical polymerizationchemistryPolymerizationChemical engineeringAddition polymerJournal of Polymer Science Part A: Polymer Chemistry
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In situ synchrotron characterization of mechanically activated self-propagating high-temperature synthesis applied in Mo–Si system

1999

Abstract An original experiment was designed to monitor structural and thermal evolutions during the MASHS (Mechanically Activated Self-propagating High-temperature Synthesis) process in the Mo–Si system. Time-Resolved X-Ray Diffraction (TRXRD) coupled with an infrared imaging technique was performed to study, in situ, the formation of the α-MoSi2 phase in the combustion front. Despite a temporal resolution of 50 ms between two consecutive diffractograms, no intermediate phase was observed during the passage of the combustion front. The only reaction responsible for the self-sustentation is Mo+2Si→MoSi2 in the primary zone inside the combustion wave. The mechanical activation was found to i…

DiffractionNanostructureMaterials sciencePolymers and PlasticsMetals and AlloysSelf-propagating high-temperature synthesisAnalytical chemistryMicrostructureCombustionElectronic Optical and Magnetic MaterialsTemperature gradientCrystallographyPhase (matter)Ceramics and CompositesFront velocityActa Materialia
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Determination of the stochastic evolution equation from noisy experimental data

2003

We have determined the coefficients of the Kardar-Parisi-Zhang equation as functions of coarse graining, which best describe the time evolution and spatial behavior observed for slow-combustion fronts in sheets of paper and magnetic flux fronts in a thin-film high-Tc superconductor. Reconstruction of the relevant equation of motion and its coefficients was mainly based on the inverse method proposed by Lam and Sander [Phys. Rev. Lett. 71, 561 (1993)]. The coefficient of the nonlinear term was also determined from the local slope-dependence of the front velocity.

PhysicsNonlinear systemStochastic processCondensed Matter::Statistical MechanicsFront velocityTime evolutionEquations of motionStatistical physicsInverse problemCondensed Matter PhysicsMagnetic fluxElectronic Optical and Magnetic MaterialsKardar–Parisi–Zhang equationThe European Physical Journal B - Condensed Matter
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