The Experts below are selected from a list of 47331 Experts worldwide ranked by ideXlab platform
Jeffrey D. Smith - One of the best experts on this subject based on the ideXlab platform.
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kinetics of corrosion of bn zro2 sic ceramics in contact with si killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, D G C Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
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Kinetics of Corrosion of BN–ZrO2–SiC Ceramics in Contact with Si-Killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, David Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
Abhishek Kumar - One of the best experts on this subject based on the ideXlab platform.
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kinetics of corrosion of bn zro2 sic ceramics in contact with si killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, D G C Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
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Kinetics of Corrosion of BN–ZrO2–SiC Ceramics in Contact with Si-Killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, David Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
Vivek Thapliyal - One of the best experts on this subject based on the ideXlab platform.
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kinetics of corrosion of bn zro2 sic ceramics in contact with si killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, D G C Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
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Kinetics of Corrosion of BN–ZrO2–SiC Ceramics in Contact with Si-Killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, David Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.
H W Zandbergen - One of the best experts on this subject based on the ideXlab platform.
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tem sem investigation of microstructural changes within the white etching area under rolling contact fatigue and 3 d crack reconstruction by focused ion beam
Scripta Materialia, 2007Co-Authors: A Grabulov, U Ziese, H W ZandbergenAbstract:The white etching area (WEA) surrounding the cracks formed under high-cycle rolling contact fatigue was investigated by transmission electron microscopy (TEM) and Dual Beam (scanning electron microscopy (SEM)/focused ion beam). SEM revealed the initiation of cracks formed around artificially introduced Al2O3 inclusions in the model Steel (Composition similar to SAE 52100). TEM investigations showed a microstructural difference between the WEA (formation of nanocrystalline ferrite) and the Steel matrix (tempered martensitic structure). A three-dimensional image of the crack reconstructed from ∼400 Dual Beam cross-section images is reported.
D G C Robertson - One of the best experts on this subject based on the ideXlab platform.
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kinetics of corrosion of bn zro2 sic ceramics in contact with si killed Steel
Journal of the American Ceramic Society, 2015Co-Authors: Abhishek Kumar, Vivek Thapliyal, D G C Robertson, Jeffrey D. SmithAbstract:The mechanism and kinetics of corrosion of BN–ZrO2–SiC (MYCROSINT®SO43) by molten Si-killed Steel was studied. Isothermal corrosion tests were performed for duration between 2 and 8 h. Refractory and Steel Composition and morphology changes were investigated. A kinetic model using process simulation software METSIM and thermochemical software FactSage was developed to understand refractory–Steel interactions. The corrosion process showed a deviation from parabolic kinetics and was fitted by a combination of linear and parabolic terms. It was determined that corrosion of the BN–ZrO2–SiC refractory was governed by dissolution of SiC and BN and removal of ZrO2 as the other phases were eliminated.