Processing and optimization of doped polymer ceramic composite films for luminescence based pressure and temperature measurement in aerodynamic applications.
Processing and optimization of doped polymer ceramic composite purdue croggin.
Purdue university west lafayette in usa.
Scroggin processing and optimization of doped polymer ceramic composite films for luminescence based pressure and temperature measurement in aerodynamic applications master s thesis purdue university west lafayette in 1999.
Processing and optimization of doped polymer ceramic composite films for luminescence based pressure and temperature measurement in aerodynamic applications ms thesis school of materials engineering.
A pressure sensitive paint psp with fast response characteristics that can be sprayed on a test article is studied.
Characterization and optimization of polymer ceramic pressure sensitive paint by controlling polymer content.
32 thermal properties of hemp high density polyethylene composites.
Sakaue h kakisako t ishikawa h.
Ms thesis school of materials engineering purdue university west lafayette in 1999.
A dipping deposition method is used to apply a luminophore on a polymer ceramic coating.
Composite materials requires the optimization of the li molar ratio in the filler and of the weight.
Scroggin processing and optimization of doped polymer ceramic composite films for luminescence based pressure and temperature measurement in aerodynamic applications m s.
The signal level pressure sensitivity temperature dependency and time response.
We controlled the polymer content from 10 to 90 to study its effects on psp characteristics.
Effect of two different chemical treatments materials processing and interfaces volume 1 pp 375 382.
33 effect of alkali and silane treatment on the thermal stability of hemp fibers as reinforcement in composite structures advanced materials research 415 417 pp 666 670.
This psp consists of a polymer for spraying and a porous particle for providing the fast response.
Costly sintering processing of the ceramic powders to form high density solids can be eliminated.
The ceramic nanocomposite work in multiphysics lab at purdue focuses on 1 understanding performance of carbide and nitride based high temperature ceramic nanocomposites for extreme environments found in power generation cycles including nuclear applications 2 multiscale modeling and characterization in oxide ceramic materials and 3 understanding thermal conduction and thermal issues in.
Dependent lithium ion transport of ceramic polymer composite electrolyte for solid.
Thesis school of materials engineering purdue university west lafayette in 1999.
The luminophore application process is studied to enhance the characterization of the pc psp.
