Relevant bibliographies by topics / ZrO2 incorporation

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  1. Journal articles
  2. Dissertations / Theses
  3. Conference papers

Academic literature on the topic 'ZrO2 incorporation'

Author: Grafiati
Published: 25 May 2024

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Journal articles on the topic "ZrO2 incorporation"

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Salinas, Daniela, Sichem Guerrero, Cristian H. Campos, Tatiana M. Bustamante, and Gina Pecchi. "The Effect of the ZrO2 Loading in SiO2@ZrO2-CaO Catalysts for Transesterification Reaction." Materials 13, no. 1 (January 4, 2020): 221. http://dx.doi.org/10.3390/ma13010221.

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The effect of the ZrO2 loading was studied on spherical SiO2@ZrO2-CaO structures synthetized by a simple route that combines the Stöber and sol-gel methods. The texture of these materials was determined using SBET by N2 adsorption, where the increment in SiO2 spheres’ surface areas was reached with the incorporation of ZrO2. Combined the characterization techniques of using different alcoholic dissolutions of zirconium (VI) butoxide 0.04 M, 0.06 M, and 0.08 M, we obtained SiO2@ZrO2 materials with 5.7, 20.2, and 25.2 wt % of Zr. Transmission electron microscopy (TEM) analysis also uncovered the shape and reproducibility of the SiO2 spheres. The presence of Zr and Ca in the core–shell was also determined by TEM. X-ray diffraction (XRD) profiles showed that the c-ZrO2 phase changed in to m-ZrO2 by incorporating calcium, which was confirmed by Raman spectroscopy. The purity of the SiO2 spheres, as well as the presence of Zr and Ca in the core–shell, was assessed by the Fourier transform infrared (FTIR) method. CO2 temperature programmed desorption (TPD-CO2) measurements confirmed the increment in the amount of the basic sites and strength of these basic sites due to calcium incorporation. The catalyst reuse in FAME production from canola oil transesterification allowed confirmation that these calcium core@shell catalysts turn out to be actives and stables for this reaction.
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Hassan, S. F. "Mg-ZrO2 Nanocomposite: Relative Effect of Reinforcement Incorporation Technique." Archives of Metallurgy and Materials 61, no. 3 (September 1, 2016): 1521–28. http://dx.doi.org/10.1515/amm-2016-0249.

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Abstract In this study, ingot metallurgy and powder metallurgy processes were used to incorporate 0.2 and 0.7 vol% of nano-size ZrO2 particles reinforcement to develop magnesium nanocomposite. Both of the processing methods led to reasonably fair reinforcement distribution, substantial grain refinement and minimum porosity in the nanocomposites. Strengthening effect of nano-ZrO2 reinforcement in the magnesium matrix was greater when incorporated using the ingot metallurgy process. The matrix ductility and resistance to fracture were significantly improved due to the presence of nano-ZrO2 reinforcement when incorporated using the powder metallurgy process. Tensile fracture surfaces revealed that the less-ductile cleavage fracture mechanism of hexagonal close packed magnesium matrix has changed to more ductile mode due to the presence of nano-ZrO2 particles in all the processed nanocomposites.
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Abu El-Fadl, A., Amna M. Eltokhey, A. A. Abu-Sehly, and Amina A. Abozeed. "Stabilization of tetragonal phase of nanostructured Fex/ZrO2 system (0 ≤ x ≤ 25) prepared by modified sol-gel method." Physica Scripta 97, no. 2 (January 24, 2022): 025706. http://dx.doi.org/10.1088/1402-4896/ac4864.

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Abstract In the present study, Fex/ZrO2 (0 ≤ x ≤ 25) nanoparticles were synthesized by a facile modified Sol-Gel method. Stabilization of the tetragonal phase of ZrO2 is studied as a function of both the Fe incorporation ratios and thermal treatment. The Fe incorporation ratios are tested up to the extreme just before FeO and Fe2O3 phases are formed separately. The prepared Fex/ZrO2 nanoparticles XRD analysis depicts the formation of zirconium oxide at different Fe ratios in the nanoscale with an excellent degree of crystallinity in the tetragonal phase. The effect of thermal treatment on stabilizing the tetragonal phase of Fex/ZrO2 nanoparticles is extensively studied. The phase transition to the monoclinic phase is determined as function of Fe incorporation ratios and annealing temperatures. The optical absorbance spectra showed that the optical band gap decreased with increasing Fe ratios without the formation of doping bands which confirms the formation of Fex/ZrO2 single matrix.
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Sripada, Suresh, M. Chandrashekhar Reddy, T. Sreekanth, Rajesh Siripuram, and K. Venkateshwarlu. "Influence of Nano Filler (ZrO<sub>2</sub>) on Optical and Thermal Studies of Potassium Doped Polyethylene Oxide Solid Polymer Electrolytes." Materials Science Forum 1048 (January 4, 2022): 101–9. http://dx.doi.org/10.4028/www.scientific.net/msf.1048.101.

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Solid polymer electrolyte films made with potassium doped Polyethylene oxide using ZrO2 as nanofiller (70PEO-30KBF4-x ZrO2 where x = 1, 2.5, 5, 7.5, & 10 wt% ­­) were prepared by solution casting technique. Optical and thermal properties of polymer electrolyte films were studied by using Optical absorption and DSC techniques. From Optical absorption spectra, it is observed that fundamental absorption edge is shifted towards the higher wavelength side (range 259- 297 nm) with increase of nano filler (ZrO­2) concentration (1-10 wt %). Optical band gap for all electronic transitions (p=1/2, 2, 2/3 and 1/3) are found to be increased as incorporation of nano filler (ZrO2) which confirms the structural rearrangements takes place in polymer electrolyte films. Optical band gap for indirect allowed transitions (p=1/2) are found to be in the range of 1.93-3.34eV. Decrease in Urbach energy (4.8eV- 1.4eV) is associated with decrease in defect formation in host polymeric matrix (PEO-KBF4) as a result of embedded nano filler (ZrO2). DSC spectra analysis of polymer electrolytes has showed melting temperatures in the range 63.63-73.71°C and highest crystallinity is found to be 85 % (10 wt % ZrO­2). Enthalpy values are elevated with increase in nanofiller composition (ZrO2) in the present polymer electrolyte films.Keywords: PEO based polymer electrolytes, Solid polymer electrolytes, Optical and Thermal studies.
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Xiong, Chao, Jin Xiao, Yu Zhao, Yuxin Wang, See Leng Tay, and Weilong Xu. "Properties of Ni–ZrO2 nanocomposite coatings by electroplating." International Journal of Modern Physics B 33, no. 01n03 (January 30, 2019): 1940024. http://dx.doi.org/10.1142/s0217979219400241.

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The microstructure, microhardness and wear property of electroplated Ni–ZrO2 nanocomposite coatings with different ZrO2 concentration were analyzed using SEM, microhardness and wear tests. It was found that in the composite coatings, incorporation of ZrO2 particles improves the mechanical property of Ni coatings and the effect of ZrO2 nanoparticles concentration on the surface morphology, microstructure and mechanical property of electroplated coatings was discussed. The mechanical properties of Ni–ZrO2 coatings reach the optimum value when the ZrO2 concentration is 10 g/L.
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Zhang, Ying, Ai Chen, Cheng Liu, Hai Rong Wang, and Ze Song Li. "Effect of Nano Zirconia on Microstructure and Electrochemical Behavior of Aluminium-Zinc Sacrificial Anodes." Key Engineering Materials 519 (July 2012): 41–44. http://dx.doi.org/10.4028/www.scientific.net/kem.519.41.

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In this study, nano ZrO2 powders were incorporated into Al-5 wt% Zn sacrificial anode and the effect of ZrO2 contents (wt% =0.1, 0.2) on microstructures and electrochemical properties were investigated. The results show that the addition of nano ZrO2 was effective on improving metallurgical and electrochemical properties. With the increase of ZrO2 content, the dendritic structure is fined gradually and the corrosion current density values is also increased. The incorporation of ZrO2 also can result in a moderate efficiency value. When the ZrO2 content in the alloy was 0.2 wt%, the optimal microstructure, electrochemical properties and as high as 70% the efficiency value was obtained.
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Yin, Guo Xiang, Yong Li, Jun Hong Chen, and Xin Kui Gao. "The Wear Mechanism Comparison between MgO-Based Chrome-Free Brick and MgO-Cr2O3 Brick in the Lower Part of RH Vacuum Degasser." Advanced Materials Research 476-478 (February 2012): 1991–96. http://dx.doi.org/10.4028/www.scientific.net/amr.476-478.1991.

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The damage and improvement mechanism of rebonded MgO-Cr2O3 brick and MgO-ZrO2 brick used in the lower part of RH vacuum degasser were studied. The results show that the main damage of rebonded MgO-Cr2O3 brick is structure spalling because of the penetration of slag. MgO-ZrO2 brick has characteristics of high direct-bonding degree, small air permeability and making the viscosity of penetrated slag increased by means of ZrO2 absorbing CaO in slag to form CaZrO3 or ZrO2 solid solution, which make the degree of slag penetration decrease and improve the structure spalling resistance. MgO-ZrO2 brick has the defect of poor thermal shock resistance in use, the incorporation of MgO-rich spinel into MgO-ZrO2 brick significantly improved both thermal shock resistance and hot modulus of rupture because of the formation of eutectoid structure of grain-refining spinel and zirconia, which also improved structure spalling resistance because air permeability was decreased to 5% of MgO-ZrO2 brick
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Yu, Lei, Hui Liu, Kai Liang, Zhen Di Zang, Jia Cheng Shi, Yi Ru Shen, Qi Tian, and Xu Hong Wang. "Isothermal Oxidation Resistance of Zr3[Al(Si)]4C6-Based Composite Ceramics at 1000-1300°C in Air." Solid State Phenomena 281 (August 2018): 444–49. http://dx.doi.org/10.4028/www.scientific.net/ssp.281.444.

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The isothermal oxidation behavior of Zr3[Al(Si)]4C6-ZrB2-ZrC composite ceramics at 1000-1300 °C in air has been investigated. The oxidation kinetics of the composites and generally follows a parabolic law. At the same oxidation temperature and time, the weight gain per unit surface area, oxidation rate constant and oxide thickness of the composites are higher than those of monolithic Zr3[Al(Si)]4C6 ceramic. With the incorporation of ZrB2 and ZrC, the oxidation resistance of the composites becomes poor. The surfaces of the oxide layer have a loose and porous structure, consisting of mainly ZrO2 and little mullite, and there are no dense oxide films preventing the inward diffusion of oxygen element effectively.
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Zhou, Kai, Faqin Xie, Xiangqing Wu, and Shaoqing Wang. "Fabrication of High Temperature Oxidation Resistance Nanocomposite Coatings on PEO Treated TC21 Alloy." Materials 13, no. 1 (December 18, 2019): 11. http://dx.doi.org/10.3390/ma13010011.

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The effects of ZrO2 nanoparticles in a NaAlO2 electrolyte on the thickness, morphology, composition, structure, and high temperature oxidation resistance of plasma electrolytic oxidation (PEO) coatings on a TC21 titanium alloy were investigated. The coating thickness increased with increasing concentration of ZrO2 nanoparticles in the electrolyte, accompanied by a decrease in the porosity of the coating surface. The PEO coatings formed in the ZrO2 nanoparticle-free electrolyte were composed of Al2TiO5. ZrTiO4, m-ZrO2, and t-ZrO2 were detected in the PEO coatings produced by the electrolyte that contained ZrO2 nanoparticles, which indicated that the deposition mechanism of the nanoparticles was partly reactive incorporation. The high temperature oxidation resistance of the TC21 titanium alloy at 650 °C and 750 °C was improved by 3–5 times after PEO treatment. The oxidation mechanism involved oxygen diffusing inward to form an oxide layer at the interface of the PEO coating and substrate.
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Kadi, Mohammad W., and R. M. Mohamed. "Enhanced Photocatalytic Activity of ZrO2-SiO2Nanoparticles by Platinum Doping." International Journal of Photoenergy 2013 (2013): 1–7. http://dx.doi.org/10.1155/2013/812097.

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ZrO2-SiO2mixed oxides were prepared via the sol-gel method. Photo-assisted deposition was utilized for doping the prepared mixed oxide with 0.1, 0.2, 0.3, and 0.4 wt% of Pt. XRD spectra showed that doping did not result in the incorporation of Pt within the crystal structure of the material. UV-reflectance spectrometry showed that the band gap of ZrO2-SiO2decreased from 3.04 eV to 2.48 eV with 0.4 wt% Pt doping. The results show a specific surface area increase of 20%. Enhanced photocatalysis of Pt/ZrO2-SiO2was successfully tested on photo degradation of cyanide under illumination of visible light. 100% conversion was achieved within 20 min with 0.3 wt% of Pt doped ZrO2-SiO2.
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Dissertations / Theses on the topic "ZrO2 incorporation"

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周益賢. "The Effect of Lanthanum (La) Incorporation in Ultra-Thin ZrO2 High-k Gate Dielectrics." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/77966009299506483899.

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碩士
國立臺灣師範大學
機電科技研究所
98
This study is mainly to investigate the La doping effect on the electrical properties of ultra-thin La-doped ZrO2 (denoted by ZrLaO) films for high-k gate dielectric applications of advanced logic technologies. In this work, ZrLaO films were co-deposited on p-type Si wafers by RF magnetron sputtering in the Ar ambient at room temperature, where ZrO2 and La targets utilized RF power and DC power, respectively, for sputtering. For comparison, ZrO2 films of similar physical thickness were also independently formed on Si wafers. A post-deposition annealing (PDA) was then performed in N2 ambient at 650℃ and 850℃. To form MOS structures, Al was sputtered as the top electrode, followed by annealing at 400℃ in N2. The film thickness was determined by ellipsometry and high-resolution transmission electron microscopy (HRTEM). The crystallization phase of ZrO2 and ZrLaO after PDA was investigated by X-ray diffraction (XRD). The electrical properties of ZrO2 with or without La incorporation were also analyzed and compared, including leakage current measured at 300-450 K, dielectric constant, flat-band voltage shift, current conduction behavior, and Schottky barrier height.
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Hsu, Chia-Lin, and 許嘉麟. "Studies on the Effect of Al- and Ge-incorporation on ZrO2 Gate Dielectric and Effect of Channel Doping on Ge n-MOSFET." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/y2wz4y.

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碩士
國立交通大學
電子研究所
107
In this thesis, the properties of Al- and Ge-doped ZrO2 dielectric stacks on Ge devices are investigated thoroughly. It is found that the doping of Al suppresses the crystallization of ZrO2, resulting in the reduce of accumulation capacitance; however, it also reduces the leakage current and promotes the hysteresis performance without the deterioration of interface state density. In contrast, the Ge-doped samples exhibit similar performance as the samples with pure ZrO2. On the other hand, the effects of different structures and several Al doping concentrations with various post-metal annealing (PMA) temperatures are also discussed and evaluated, and the best condition is proposed and suggested. In order to further understand the influence of the incorporation of Al into ZrO2 as gate dielectric, the samples with thicker physical thickness and higher PMA temperatures are fabricated. It is discovered that the doping of Al will increase the critical crystallization temperature and the onset crystallization thickness of ZrO2, which accounts for the retardation of crystallization. Overall, the pure ZrO2 samples still exhibit better J_G-EOT behavior, while the Al-doped samples own lower leakage current. In addition, all the Al- and Ge- doped samples have better hysteresis than the pure ZrO2 ones without the deterioration of the interfacial layer. Next, Germanium (Ge) n-MOSFETs with various channel doping concentration are fabricated, and the effects of channel doping are fully discussed and investigated. The overall electrical properties are evaluated, including transfer and output characteristics, the number of interface traps and border traps, and the channel mobility. In previously proposed researches, it is found that the on-current and mobility will severely degrade when the substrate doping concentration reaches 1e18. However, in this thesis, only slight deterioration of on-current and mobility is observed at the higher doping concentration, probably due to the Coulomb scattering of interface trap densities generated after implantation. Then, for the samples with severe on-current and mobility degradation, the possible speculation and solution are proposed. it is suspected that the severe degradation may result from the extra Coulomb scattering caused by the defects generated at the interface after implantation with high energy. In addition, the quality of Ge wafer may also be a concern. On the other hand, it is discovered that the Coulomb scattering and the surface roughness scattering are more serious in Ge n-MOSFET compared to silicon. As a result, if the interface and substrate of Ge n-MOSFET can be improved more with appropriate thermal budget or high-quality wafer, it is possible to achieve better performance.
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Conference papers on the topic "ZrO2 incorporation"

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Kao, Chyuan-Haur, Chih-Ju Lin, Hsin-Yuan Wang, and Szu-Chien Chen. "The characteristics of ZrO2 charge trapping layers by nitrogen incorporation in nonvolatile memory applications." In 2012 IEEE 11th International Conference on Solid-State and Integrated Circuit Technology (ICSICT). IEEE, 2012. http://dx.doi.org/10.1109/icsict.2012.6467750.

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Zhu, Ze, Yi Li, Fengshun Wu, and Yan-cheong Chan. "Enhanced electromigration (EM) reliability of Sn58Bi solder due to the incorporation of ZrO2 nanoparticles." In 2016 6th Electronic System-Integration Technology Conference (ESTC). IEEE, 2016. http://dx.doi.org/10.1109/estc.2016.7764722.

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Tsui, Y. C., and T. W. Clyne. "Adhesion of Thermal Barrier Coating Systems and Incorporation of an Oxidation Barrier Layer." In ITSC 1996, edited by C. C. Berndt. ASM International, 1996. http://dx.doi.org/10.31399/asm.cp.itsc1996p0275.

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Abstract The adhesion of various interfaces in thermal barrier coating systems strongly affects their stability and thermal cycling life. A new spontaneous debonding technique and the four point bend delamination test have been applied to measure the interfacial fracture toughnesses of various interfaces in several thermal barrier coating systems. The spontaneous debonding technique is based on spraying a relatively stiff layer on top of the ZrO2 coating. This raises the strain energy release rate for debonding, the magnitude of which is monitored via modelling of the stress distribution. The critical strain energy release rate for debonding (interfacial fracture energy) was then determined from the stress states before and after debonding. Thermal barrier coatings (TBCs), consisting of a Ni-22wt.%Cr-10wt.%Al-lwt.%Y bond coat and a ZrO2-8%Y2O3 top coat, were deposited on a nickelbased superalloy. Two methods, air (APS) and vacuum (VPS) plasma spraying, were used to produce the bond and the top coats. The corresponding as-sprayed residual stress distributions and the interfacial fracture energies were evaluated. It was found that a VPS bond coat and an APS top coat produced the most mechanically stable structure. A layer of vacuum plasma sprayed AI2O3 was then introduced between the top and the bond coat, designed to act as an oxygen diffusion barrier. The effect on residual stress distributions, and associated crack driving forces for debonding, at different interfaces were determined. The effect of the alumina layer on the oxidation behaviour was also studied. It is shown that the oxidation barrier could significantly enhance the coating life-time.
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Limarga, A. M., S. Widjaja, and T. H. Yip. "Finite Element Analysis on Residual Stress in a Plasma-Sprayed Functionally Graded Thermal Barrier Coating." In ITSC2001, edited by Christopher C. Berndt, Khiam A. Khor, and Erich F. Lugscheider. ASM International, 2001. http://dx.doi.org/10.31399/asm.cp.itsc2001p0943.

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Abstract Thermal barrier coating (TBC) structures composed of Al2O3 and ZrO2 with different chemical compositions on the NiCoCrAlY bondcoat are proposed to improve the oxidation resistance of TBC systems. The concept of functionally graded materials (FGM) was applied to manage residual stresses due to sharp interface between dissimilar materials that can lead to a premature failure of the TBC system. A numerical study using finite element analysis was performed to investigate the effects of system architecture on the residual stresses developed in Functionally Graded - Thermal Barrier Coatings (FG-TBCs) and in a typical duplex TBC comprising of NiCoCrAlY bondcoat and ZrO2 topcoat. The effects of different cooling rates and substrate preheating process on the residual stress distribution were also studied. The results showed that lower cooling rate and substrate preheating process reduce stresses within the duplex coating. In addition, the incorporation of Al2O3 interlayer results in a manageable level of residual stress. Stresses at critical locations are reduced, and hence contributing to an increase in resistance to the interfacial crack. The possibility of surface cracks is also reduced since the radial and tangential stresses within the FGTBC system are lower than those of the duplex system. It was found that the thickness of Al2O3 layer and the number of graded layers introduced between Al2O3 and ZrO2 do not significantly affect the stress distribution. To provide adequate comparison to the computational results. X-ray diffraction was used to assess the in-plane residual stresses on the coating surface.
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Joo, Moon Sig, Seung Ryong Lee, Hongseon Yang, Kwon Hong, Se-Aug Jang, Jaehyoung Koo, Jaemun Kim, et al. "The incorporation effect of thin Al2O3 layers on ZrO2-Al2O3 nanolaminates in the composite oxide-high-K-oxide stack for the floating gate flash memory devices." In 2006 International Conference on Solid State Devices and Materials. The Japan Society of Applied Physics, 2006. http://dx.doi.org/10.7567/ssdm.2006.f-7-1.

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Al-Raqom, F., J. F. Klausner, D. Hahn, J. Petrasch, and S. A. Sherif. "High Temperature Fluidized Bed Reactor Kinetics With Sintering Inhibitors for Iron Oxidation." In ASME 2011 International Mechanical Engineering Congress and Exposition. ASMEDC, 2011. http://dx.doi.org/10.1115/imece2011-62808.

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High purity hydrogen is produced through a thermochemical water splitting process that utilizes iron reduction-oxidation (redox) reactions. An iron powder bed is fluidized to improve heat and mass transfer thus improving the reaction kinetics. Inert additives which act as sintering inhibitors, such as silica (SiO2) and zirconia (ZrO2), are added to the iron powder, and their effectiveness in inhibiting sintering in the oxidation step is evaluated. The influence of particle size, composition, mass fraction and bed temperature on reaction kinetics is investigated. Incorporation of zirconia in the powder bed is done by mixing it with iron powder or by coating the iron particles with a mixture of 1–3 μm and 44 μm zirconia particles. Two different batches of silica are used for blending with iron powder. The silica powder batches include particle diameters ranging from 0–45 μm and 200–300 μm. The mixing ratios of silica to iron are 0.33, 0.5, 0.67 and 0.75 by apparent volume. Experimental studies are conducted in a bench scale experimental fluidized bed reactor at bed temperatures of 450, 550, 650, 750 and 850 °C. It is verified that increasing the bed temperature and the steam residence time increases the hydrogen yield. Increasing the iron particle size reduces the specific surface area and reduces the hydrogen yield. It has been found that sintering can be completely inhibited by mixing iron with 0–45 μm silica powder and maintaining the reaction temperature below 650 °C.
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"Characterisation of cracks in ZrO2 ceramic using a tri-beam microscope." In Microscience Microscopy Congress 2023 incorporating EMAG 2023. Royal Microscopical Society, 2023. http://dx.doi.org/10.22443/rms.mmc2023.119.

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Rong, Zhicheng, Chang Liu, and Yingbin Hu. "4D Printing of Complex Ceramic Structures via Controlling Zirconia Contents and Patterns." In ASME 2021 16th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2021. http://dx.doi.org/10.1115/msec2021-63642.

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Abstract In recent years, more and more attentions have been attracted on integrating three-dimensional (3D) printing with fields (such as magnetic field) or innovating new methods to reap the full potential of 3D printing in manufacturing high-quality parts and processing nano-scaled composites. Among all of newly innovated methods, four-dimensional (4D) printing has been proved to be an effective way of creating dynamic components from simple structures. Common feeding materials in 4D printing include shape memory hydrogels, shape memory polymers, and shape memory alloys. However, few attempts have been made on 4D printing of ceramic materials to shape ceramics into intricate structures, owing to ceramics’ inherent brittleness nature. Facing this problem, this investigation aims at filling the gap between 4D printing and fabrication of complex ceramic structures. Inspired by swelling-and-shrinking-induced self-folding, a 4D printing method is innovated to add an additional shape change of ceramic structures by controlling ZrO2 contents and patterns. Experimental results evidenced that by deliberately controlling ZrO2 contents and patterns, 3D-printed ceramic parts would undergo bending and twisting during the sintering process. To demonstrate the capabilities of this method, more complex structures (such as a flower-like structure) were fabricated. In addition, functional parts with magnetic behaviors were 4D-printed by incorporating iron into the PDMS-ZrO2 ink.
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Guo, Jinxin, Ryuta Fujii, Takanori Ono, and Yasuo Tomita. "Thermal stability of ZrO_2 nanoparticle-polymer composite volume gratings incorporating multifunctional chain transfer agents." In JSAP-OSA Joint Symposia. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/jsap.2014.18p_c3_4.

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J, Chandradass, Thirugnanasambandham T, R. Rajendran, and Palanivendhan Murugadoss. "Effect of ZrO <sub>2</sub> Nanoparticles Loading on the Tribo-Mechanical Behavior of Magnesium Alloy Nanocomposites." In International Conference on Advances in Design, Materials, Manufacturing and Surface Engineering for Mobility. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2023. http://dx.doi.org/10.4271/2023-28-0130.

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<div class="section abstract"><div class="htmlview paragraph">Magnesium alloy nanocomposite prepared with hard ceramic particles via conventional technique is a promising future material for automotive applications due to its unique characteristics like low density, high strength, castability, and good wear resistance. The present study is to enhance the tribo-mechanical properties of alumina nanoparticle (10wt %) reinforced magnesium alloy (Mg/Al) composite by incorporating 1wt%, 3wt%, and 5wt% zirconium dioxide (ZrO<sub>2</sub>) nanoparticles through stir casting method. The tensile strength, impact toughness, hardness, and wear rate of developed composites were compared with (10wt %) alumina nanoparticles reinforced magnesium alloy composite. The nanocomposite containing 3wt% ZrO<sub>2</sub> shows maximum impact strength of 22.8 J/mm<sup>2</sup>. The maximum tensile strength (88.9MPa), hardness (124.5BHN), and wear resistance (9.802mm<sup>3</sup>/m at 20N) are obtained for 5wt% ZrO<sub>2</sub> magnesium alloy nanocomposite.</div></div>
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