377 research outputs found
Directional solidification of Pb-Sn eutectic with vibration
Pb-Sn eutectic alloy was directionally solidified at 1.4 to 3.2 cm/hr with forced convection induced by axial vibration of the growth ampoule with a frequency of 10 to 40 Hz and an amplitude of 0.5 to 1.0 mm. To determine the exact growth rate, an interface demarcation technique was applied. The lamellar spacing was increased 10 to 40 percent in ingots solidified with vibration compared to those solidified without vibration. The average intensity of convection in the melt under axial vibration of the ampoule was estimated by comparing the experimental results with a theoretical model
Directional solidification of Pb-Sn eutectics with vibration
Pb-Sn eutectic alloy was directionally solidified at 1.4 to 3.2 cm/hr with forced convection induced by axial vibration of the growth ampoule with a frequency of 10 to 40 Hz and an amplitude of 0.5 to 1.0 mm. To determine the exact growth rate, an interface demarcation technique was applied. The lamellar spacing was increased 10 to 40 percent in ingots solidified with vibration compared to those solidified without vibration. The number of grain boundaries was increased by vibration. The average intensity of convection in the melt under axial vibration of the ampoule was estimated by comparing the experimental results with a theoretical model
An analysis of the literature dealing with objectives, content, trends, and methods of bookkeeping in the secondary school.
Thesis (M.A.)--Boston Universit
Influence of convection on microstructure
The mechanism responsible for the difference in microstructure caused by solidifying the MnBi-Bi eutectic in space is sought. The objectives for the three year period are as follows: (1) completion of the following theoretical analyses - determination of the influence of the Soret effect on the average solid composition versus distance of off-eutectic mixtures directionally solidified in the absence of convection, determination of the influence of convection on the microstructure of off-eutectic mixtures using a linear velocity profile in the adjacent melt, determination of the influence of volumetric changes during solidification on microconvection near the freezing interface and on microstructure, and determination of the influence of convection on microstructure when the MnBi fibers project out in front of the bismuth matrix; (2) search for patterns in the effect of microgravity on different eutectics (for example, eutectic composition, eutectic temperature, usual microstructure, densities of pure constituents, and density changes upon solidification); and (3) determination of the Soret coefficient and the diffusion coefficient for Mn-Bi melts near the eutectic composition, both through laboratory experiements to be performed here and from data from Shuttle experiments
Emittance measurements of Space Shuttle orbiter reinforced carbon-carbon
The spectral and total normal emittance of the Reinforced Carbon-Carbon (RCC) used on Space Shuttle nose cap and wing leading edges has been measured at room temperature and at surface temperatures of 1200 to 2100 K. These measurements were made on virgin and two flown RCC samples. Room temperature directional emittance data were also obtained and were used to determine the total hemispherical emittance of RCC as a function of temperature. Results of the total normal emittance for the virgin samples showed good agreement with the current RCC emittance design curve; however, the data from the flown samples showed an increase in the emittance at high temperature possibly due to exposure from flight environments
Influence of convection on microstructure
In eutectic growth, as the solid phases grow they reject atoms to the liquid. This results in a variation of melt composition along the solid/liquid interface. In the past, mass transfer in eutectic solidification, in the absence of convection, was considered to be governed only by the diffusion induced by compositional gradients. However, mass transfer can also be generated by a temperature gradient. This is called thermotransport, thermomigration, thermal diffusion or the Soret effect. A theoretical model of the influence of the Soret effect on the growth of eutectic alloys is presented. A differential equation describing the compositional field near the interface during unidirectional solidification of a binary eutectic alloy was formulated by including the contributions of both compositional and thermal gradients in the liquid. A steady-state solution of the differential equation was obtained by applying appropriate boundary conditions and accounting for heat flow in the melt. Following that, the average interfacial composition was converted to a variation of undercooling at the interface, and consequently to microstructural parameters. The results obtained show that thermotransport can, under certain circumstances, be a parameter of paramount importance
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Design Principles for Two-Dimensional Molecular Aggregates Using Kasha's Model: Tunable Photophysics in Near and Short-Wave Infrared
Technologies
which utilize near-infrared (700 – 1000 nm) and short-wave infrared (1000 –
2000 nm) electromagnetic radiation have applications in deep-tissue imaging,
telecommunications and satellite telemetry due to low scattering and decreased
background signal in this spectral region. It is therefore necessary to develop
materials that absorb light efficiently beyond 1000 nm. Transition dipole
moment coupling (e.g. J-aggregation) allows for redshifted excitonic states and
provides a pathway to highly absorptive electronic states in the infrared. We present aggregates of two cyanine dyes whose
absorption peaks redshift dramatically upon aggregation in water from ~800
nm to 1000 nm and 1050 nm respectively with sheet-like morphologies and high
molar absorptivities (e ~ 105 M-1cm-1). We use Frenkel exciton theory to extend
Kasha’s model for J and H aggregation and describe the excitonic states of
2-dimensional aggregates whose slip is controlled by steric hindrance in the
assembled structure. A consequence of the increased dimensionality is the
phenomenon of an intermediate “I-aggregate”, one which redshifts yet displays
spectral signatures of band-edge dark states akin to an H-aggregate. We
distinguish between H-, I- and J-aggregates by showing the relative position of
the bright (absorptive) state within the density of states using temperature
dependent spectroscopy. I-aggregates hold potential for applications as charge
injection moieties for semiconductors and donors for energy transfer in NIR and
SWIR. Our results can be used to better design chromophores with predictable
and tunable aggregation with new photophysical properties
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Generalized Kasha's Model: T-Dependent Spectroscopy Reveals Short-Range Structures of 2D Excitonic Systems
Microhardness study in aluminum and copper base alloys
En el presente trabajo se realiza un estudio de la variación de la microdureza con las diferentes estructuras formadas, columnar, equiaxial y con transición de estructura columnar a equiaxial, TCE, en aleaciones Al - Cu, Al - Si, Al - Li, Al - Mg, Al-Zn y Cu - Zn, solidificadas direccionalmente empleando diferentes cargas. Las medidas de microdureza fueron realizadas a temperatura ambiente con un microdurómetro Buehler, con cargas entre 10 y 1000 gf. Se analizaron las variaciones de la microdureza en función de la longitud y el ancho de las probetas y, además, en función de la concentración. Se observó que los valores de microdureza tienden a disminuir con el aumento de la carga, por lo tanto, tienen una tendencia a permanecer constantes con cargas más elevadas.También se observó que las aleaciones en el estado bruto de fusión exhiben una mayor microdureza que cuando se las solidifica direccionalmente. Se analizan y discuten los resultados obtenidos.In the present work we analyze the variations in microhardness as a function of both microstructure and load applied in Al-Cu, Al-Si, Al-Li, Al-Mg, Al-Zn and Cu-Zn alloys directionally solidified. The microstructures analyzed were columnar, equiaxed and columnar to equiaxed (CET) transition zones. Microhardness measurements were made at room temperature using a Buehler microdurometer and loads between 10 and 1000 gf were used. Furthermore, variations in microhardness as a function of concentration and as a function of both sample length and width are reported. We noticed that the microhardness values decrease when the load increase reaching almost constant values at higher loads. We observed that bulk alloys have greater microhardness values than those directionally solidified. The experimental results are analyzed and discussed.Fil: Ares, Alicia Esther. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste; Argentina. Universidad Nacional de Misiones. Facultad de Ciencias Exactas, Químicas y Naturales; ArgentinaFil: Caram, R.. Universidade Estadual de Campinas; BrasilFil: Schvezov, Carlos Enrique. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentin
Polaritons in Large Stochastic Simulations of 2D Molecular Aggregates
We introduce stochastic techniques for simulating polaritons resulting from
large molecular aggregate crystals ( dyes) in realistic cavities. This
enables the study of 2D polaritons that are derived from systems with internal
excitonic structure and interact with many modes of cavity light due to their
large size, achieving thermodynamic convergence in both the molecular and
photonic subsystems. We demonstrate cases where cavity coupling may induce
emergent delocalization not present outside of the cavity. Such examples
demonstrate the nontrivial role the internal aggregate Hamiltonian can play in
polariton properties.Comment: 6 pages, 3 figure
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