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Wettability-Enhanced SiC-Graphite Synergy in Al<sub>2</sub>O<sub>3</sub>-SiC-C Castables: Carbon Resource Comparation, Sintering Response, and Latent Rheology Effects. [PDF]
Materials (Basel)Cheng B, Huang M, Liu G, Wu F, Liang X.
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Thermal Shock Resistance of Skin Tissue
Journal of Medical Systems, 2010Understanding the mechanisms of skin behavior under thermal shock is crucial for medical treatments. However, no reasonable criteria are available for the maximum thermal loadings that skin tissue can survive. To address this, in this paper we analyzed thermal and neural behaviors of skin tissue exposed to thermal loadings by introducing the thermal ...
ZhiBin, Fan +4 more
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Thermal-shock resistant refractories and ceramics under thermal-shock conditions
Refractories, 1988We propose an approach to evaluating the thermal-shock resistance of solid bodies in a thermal-shock schedule based on the development of elastic waves of compression (expansion) and the final value of the velocity of the thermal waves. A model is put forward and also a calculation equation for the destructive drop in temperature ΔTp in the thermal ...
V. V. Kolomeitsev, K. N. Dergunov
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Thermal shock resistant stopper tubes
Refractories, 1968We have established the possibility of manufacturing chamotte stopper tubes by the semidry pressing method with enhanced thermal shock resistance, and having reliable properties in operation, by using preliminary paraffinized chamotte in the batch.
G. V. Kukolev +3 more
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Thermal stability and thermal shock resistance of Fe2AlB2
Ceramics International, 2018Abstract The nanolaminated ternary boride Fe2AlB2 exhibits a combination of damage tolerance, electrical conductivity, and machinability at room temperature. This work reports for the first time on the thermal stability and thermal shock resistance of Fe2AlB2 at high temperatures.
Jie Liu +5 more
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Thermal shock resistance of platinum alloys
Metal Science and Heat Treatment, 1974Alloying that causes a reduction of grain size and ductility of platinum alloys lowers the resistance to thermal shock at 1350–1400°C.
L. A. Medovoi, E. I. Rytvin
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Thermal Shock Resistance of Ceramic Foams
Journal of the American Ceramic Society, 1999Thermal shock behavior of a variety of open‐cell ceramic foams was evaluated using infrared heating and forced air cooling. The extent of damage after thermal shock was determined by a nondestructive, dynamic resonance technique. The damage in foams was found to be strongly dependent on cell size and weakly dependent on density. In
Venkata R. Vedula +2 more
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Journal of the American Rocket Society, 1951
The purpose of this investigation is to demonstrate that the resistance of ceramic and ceramal materials to thermal shock can he determined by analyzing the nonsteady thermal stresses in the material. First the nonuniform temperature distribution is computed by using the heat conduction equation.
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The purpose of this investigation is to demonstrate that the resistance of ceramic and ceramal materials to thermal shock can he determined by analyzing the nonsteady thermal stresses in the material. First the nonuniform temperature distribution is computed by using the heat conduction equation.
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Thermal shock resistance of Mg-PSZ
Journal of Materials Science, 1985The thermal shock resistance (TSR) of Mg-PSZ (a partially stabilized ZrO2) containing either tetragonal t- or monoclinic m-ZrO2 precipitates was studied. The samples containing t-ZrO2 had superior TSR, particularly in having a higher retained strength after thermal fracture had been initiated.
A. H. Heuer, L. H. Schoenlein
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