2013
DOI: 10.1016/j.matchemphys.2013.05.058
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Thermal conductivity of anodized aluminum oxide layer: The effect of electrolyte and temperature

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Cited by 39 publications
(29 citation statements)
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“…The equations below show how a response is calculated for the motored and fired engine results. In equation (14), the coefficient C P is chosen for EOP C, coefficient C E is used for EOP B and A response = C 0 + C TBC + C CR 3 CR à + C R a 3 R a à + C S (motored engine) ð13Þ response = C 0 + C TBC + C AB + C CR 3 CR à + C R a 3 R a à + C P =C E (fired engine) ð14Þ factor à = 2 3 factor À factor median factor max À factor min ; Figure 16. MLR model coefficients for the energy flow distribution under motored conditions.…”
Section: Resultsmentioning
confidence: 99%
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“…The equations below show how a response is calculated for the motored and fired engine results. In equation (14), the coefficient C P is chosen for EOP C, coefficient C E is used for EOP B and A response = C 0 + C TBC + C CR 3 CR à + C R a 3 R a à + C S (motored engine) ð13Þ response = C 0 + C TBC + C AB + C CR 3 CR à + C R a 3 R a à + C P =C E (fired engine) ð14Þ factor à = 2 3 factor À factor median factor max À factor min ; Figure 16. MLR model coefficients for the energy flow distribution under motored conditions.…”
Section: Resultsmentioning
confidence: 99%
“…As the volume of the oxide is twice that of the aluminum, 0.10 mm was machined off the surface where the coating was formed. Typical values for thermal conductivity and heat capacity for this type of coating are 0.7-1.3 W/m K and 860-890 J/kg K. 14 The zirconia TBC with the same target thickness of 200 mm was applied by plasma-spraying after sandblasting the surface and application of a 150mm-thick metallic bond coat. The bond coat and top coat materials were acquired from Oerlikon, with the specifications Amdry 365-2 and Metco 204b-ns, respectively.…”
Section: Test Object Detailsmentioning
confidence: 99%
“…The aluminum was considered to have an anodized surface, which has an emissivity of 0.84. 48 The surface of the copper is covered with a layer of black oxide that makes the ε equals 0.78. 49 Such a simulation can be costly, both in terms of processing time and memory size.…”
Section: Governing Equationsmentioning
confidence: 99%
“…In fact, in the current study, only the net radiative heat flux from the heat sink to the ambient has been considered and the refractive index has been assumed equal to the unity. The aluminum was considered to have an anodized surface, which has an emissivity of 0.84 48 . The surface of the copper is covered with a layer of black oxide that makes the ε equals 0.78 49…”
Section: Heat Transfer Modelmentioning
confidence: 99%
“…Furthermore, their low dielectric strength and thermal conductivity (seen in Table 1) limited the application on high power electronic devices. Preparing aluminum nitride or alumina coating on the substrate can enhance the heat dissipation efficiency of the substrate [17]. Although aluminum nitride coating can provide higher thermal conductivity, its dielectric strength is 8 kV/mm, while its thickness is difficult to exceed 5 µm, and the coating size is limited to less than 4.5 square inches.…”
Section: Materials Dielectric Strength (Kv/mm) Thermal Conductivity (mentioning
confidence: 99%