Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings

The dissertation is split into two parts. The first part will be focused on changes in material properties found at the nanoscale, as miscibility and electronic structure can change significantly with size. The formation of classically-immiscible bimetallic nanoparticles (BNPs) becomes favorable at...

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Main Author: Kane, Kenneth
Format: Others
Published: VCU Scholars Compass 2019
Subjects:
Online Access:https://scholarscompass.vcu.edu/etd/5732
https://scholarscompass.vcu.edu/cgi/viewcontent.cgi?article=6801&context=etd
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spelling ndltd-vcu.edu-oai-scholarscompass.vcu.edu-etd-68012019-10-20T22:08:06Z Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings Kane, Kenneth The dissertation is split into two parts. The first part will be focused on changes in material properties found at the nanoscale, as miscibility and electronic structure can change significantly with size. The formation of classically-immiscible bimetallic nanoparticles (BNPs) becomes favorable at the nanoscale and novel catalytic properties can emerge from the bimetallic alloying. The formation of alloyed and non-alloyed BNPs is achieved through pulse laser ablation (PLA) and a significant increase in catalytic activity is observed for both. Recently discovered, the increased activity in the non-alloyed BNPs, deemed multicomponent photocatalysis, is examined and the proposed mechanism discussed. The second part of the talk will focus on thermal barrier coatings (TBCs), which are advanced, multi-layered coatings used to protect materials in high temperature environments. MCrAlY (M=Ni, Co) bond coats deposited via atmospheric plasma spray (APS) are intrinsically rough and initially the roughness provides a high surface area platform for the mechanical interlocking of the yttria stabilized zirconia (YSZ) top coat, which provides the bulk of the thermal insulation. After high temperature exposure, a protective oxide scale forms at the top coat/bond coat interface however the convex asperities of the bond coat can grow non-α-Al2O3 type oxides that can be detrimental for coating lifetime. A surface modification technique that removes the asperities while leaving intact the concavities is used to examine the role that roughness distribution has on 1100°C APS coating lifetime. Lastly, recent work validating a modelling strategy for evaluating 900°C TBC lifetimes, which can typically surpass 25 kh, is presented. Differences in coating-substrate interdiffusion behavior over 5-20 kh of 900°C exposure are discussed and reproduced with Thermo- Calc/DICTRA for three superalloys (1483, 247, X4) deposited with high velocity oxy fuel (HVOF) NiCoCrAlY coatings. 2019-01-01T08:00:00Z text application/pdf https://scholarscompass.vcu.edu/etd/5732 https://scholarscompass.vcu.edu/cgi/viewcontent.cgi?article=6801&context=etd © The Author Theses and Dissertations VCU Scholars Compass Pulse Laser Ablation Photocatalysis Catalysis Thermal Barrier Coatings Atmospheric Plasma Spray Ceramic Materials Inorganic Chemistry Metallurgy
collection NDLTD
format Others
sources NDLTD
topic Pulse Laser Ablation
Photocatalysis
Catalysis Thermal Barrier Coatings
Atmospheric Plasma Spray
Ceramic Materials
Inorganic Chemistry
Metallurgy
spellingShingle Pulse Laser Ablation
Photocatalysis
Catalysis Thermal Barrier Coatings
Atmospheric Plasma Spray
Ceramic Materials
Inorganic Chemistry
Metallurgy
Kane, Kenneth
Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
description The dissertation is split into two parts. The first part will be focused on changes in material properties found at the nanoscale, as miscibility and electronic structure can change significantly with size. The formation of classically-immiscible bimetallic nanoparticles (BNPs) becomes favorable at the nanoscale and novel catalytic properties can emerge from the bimetallic alloying. The formation of alloyed and non-alloyed BNPs is achieved through pulse laser ablation (PLA) and a significant increase in catalytic activity is observed for both. Recently discovered, the increased activity in the non-alloyed BNPs, deemed multicomponent photocatalysis, is examined and the proposed mechanism discussed. The second part of the talk will focus on thermal barrier coatings (TBCs), which are advanced, multi-layered coatings used to protect materials in high temperature environments. MCrAlY (M=Ni, Co) bond coats deposited via atmospheric plasma spray (APS) are intrinsically rough and initially the roughness provides a high surface area platform for the mechanical interlocking of the yttria stabilized zirconia (YSZ) top coat, which provides the bulk of the thermal insulation. After high temperature exposure, a protective oxide scale forms at the top coat/bond coat interface however the convex asperities of the bond coat can grow non-α-Al2O3 type oxides that can be detrimental for coating lifetime. A surface modification technique that removes the asperities while leaving intact the concavities is used to examine the role that roughness distribution has on 1100°C APS coating lifetime. Lastly, recent work validating a modelling strategy for evaluating 900°C TBC lifetimes, which can typically surpass 25 kh, is presented. Differences in coating-substrate interdiffusion behavior over 5-20 kh of 900°C exposure are discussed and reproduced with Thermo- Calc/DICTRA for three superalloys (1483, 247, X4) deposited with high velocity oxy fuel (HVOF) NiCoCrAlY coatings.
author Kane, Kenneth
author_facet Kane, Kenneth
author_sort Kane, Kenneth
title Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
title_short Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
title_full Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
title_fullStr Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
title_full_unstemmed Metallic systems at the nano and micro scale: Bimetallic nanoparticles as catalysts and MCrAlY bond coats in thermal barrier coatings
title_sort metallic systems at the nano and micro scale: bimetallic nanoparticles as catalysts and mcraly bond coats in thermal barrier coatings
publisher VCU Scholars Compass
publishDate 2019
url https://scholarscompass.vcu.edu/etd/5732
https://scholarscompass.vcu.edu/cgi/viewcontent.cgi?article=6801&context=etd
work_keys_str_mv AT kanekenneth metallicsystemsatthenanoandmicroscalebimetallicnanoparticlesascatalystsandmcralybondcoatsinthermalbarriercoatings
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