Effects of Combustor Rig Exposure on a Porous‐Matrix Oxide Composite

Mattoni, Michael A.; Yang, James Y.; Levi, Carlos G.; Zok, Frank W.; Zawada, Larry P.

doi:10.1111/j.1744-7402.2005.02015.x

Cited by 44 publications

(30 citation statements)

References 17 publications

(39 reference statements)

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“…The unique combination of these properties endows mullite in a variety of applications such as heat exchangers, crucibles, thermocouples, hot‐gas filters, catalyst supporters, and environmental barrier coatings on silicon‐based composites . Mullite fibers, whiskers, and mullite fiber reinforced mullite matrix composites (mullite‐based CMCs) are also promising as thermal protection systems for combustors in gas turbine engines as well as wave‐transporting components in hypersonic vehicles . Recently, B‐containing mullite compounds have attracted the attention of material scientists as well as physicists and chemists due to the fact that they have lower density than the mullite compounds in aluminosilicate system and are thus more attractive as lightweight insulating and thermal protecting materials for aerospace applications .…”

Section: Introductionmentioning

confidence: 99%

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Zhou

Xiang

2016

J. Am. Ceram. Soc.

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The electronic structure, chemical bonding, mechanical, and thermal properties of a B‐containing mullite Al5BO9 were investigated using a combination of first‐principles calculations, Debye model, Clack model, and Slack's equation. The results show that Al5BO9 has a wide band gap of 6.4 eV. The bonding in BO3 triangle and AlO4 tetrahedron is covalent‐ionic, whereas that in AlO6 octahedra and AlO5 bipyramids is ionic‐covalent. The maximum (245 GPa) and minimum Young's modulus (161 GPa) are along [100] and [010] direction, respectively. Based on the low shear modulus (78 GPa) and low Pugh's ratio (G/B = 0.497), Al5BO9 is predicted as a damage‐tolerant ceramic. The most likely slip systems are [010](100) and [100](010). The high Debye temperature (956 K) indicates good high‐temperature stability. The minimum thermal conductivity is estimated to be 1.59 W·(m·K)−1, and the thermal conductivity decreases with temperature as 2071.9/T.

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Section: Introductionmentioning

confidence: 99%

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Zhou

Xiang

2016

J. Am. Ceram. Soc.

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“…Oxide–oxide CMCs exhibit damage tolerance combined with inherent oxidation resistance, and have good high‐temperature mechanical properties in air . However, recent studies show dramatic degradation of mechanical performance of oxide–oxide CMCs at elevated temperature in steam .…”

Section: Introductionmentioning

confidence: 99%

Creep of Nextel^™ 610 Fiber at 1100°C in Air and in Steam

Armani

Ruggles‐Wrenn

Fair

et al. 2012

Int J Applied Ceramic Tech

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Creep of Nextel™610 fibers was investigated at 1100°C and 100–500 MPa in air and in steam. The effect of loading rate on fiber tensile strength was also explored. The presence of steam accelerated creep and reduced fiber lifetimes. Loading rate had a considerable effect on tensile strength in steam, but not in air. A linear elastic crack growth model was used to predict the creep lifetimes from the constant loading rate data. The dependence of tensile strength on loading rate and the predictability of creep lifetimes suggest that the failure mechanism in steam was environmentally assisted subcritical crack growth. The creep‐rupture data were analyzed in terms of a Monkman‐Grant (MG) relationship. Monkman‐Grant parameters for creep‐rupture data were the same in steam and air, and predicted creep‐rupture at 1100°C in both environments. A grain‐size increase of about 25% was observed by TEM after 100 h at 1100°C in steam, which was about two times that observed in air.

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“…[1][2][3][4][5][6][7] The vulnerability is particularly acute in composites with porous matrices. [1][2][3][4][5][6][7] The vulnerability is particularly acute in composites with porous matrices.…”

Section: Introductionmentioning

confidence: 99%

Processing of Oxide Composites with Three‐Dimensional Fiber Architectures

Yang

Weaver

Zok

et al. 2009

Journal of the American Ceramic Society

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Fabrication of oxide fiber composites is accompanied by the development of drying cracks in the matrix following slurry infiltration. The cracks are a result of the inherent shrinkage in particle compacts during drying coupled with the mechanical constraints imposed on the matrix by the fibers. The effects are most pronounced in systems with three‐dimensional fiber architectures. A mitigation strategy based on the addition of coarse matrix particles to the fine particulates has been devised and demonstrated. Among the various implementation strategies explored, the most effective involves combining the two particle types (coarse and fine) into a single slurry and coinfiltrating the slurry through sequential vibration‐ and vacuum‐assisted processes. Regardless of the infiltration route, the SiC particles have no apparent detrimental effect on the fiber bundle properties. Additionally, they increase the through‐thickness thermal diffusivity by 50%–100%.

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Effects of Combustor Rig Exposure on a Porous‐Matrix Oxide Composite

Cited by 44 publications

References 17 publications

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Creep of Nextel^™ 610 Fiber at 1100°C in Air and in Steam

Processing of Oxide Composites with Three‐Dimensional Fiber Architectures

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Effects of Combustor Rig Exposure on a Porous‐Matrix Oxide Composite

Cited by 44 publications

References 17 publications

Al5BO9: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Al5BO9: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Creep of Nextel™ 610 Fiber at 1100°C in Air and in Steam

Processing of Oxide Composites with Three‐Dimensional Fiber Architectures

Contact Info

Product

Resources

About

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Al₅BO₉: A Wide Band Gap, Damage‐Tolerant, and Thermal Insulating Lightweight Material for High‐Temperature Applications

Creep of Nextel^™ 610 Fiber at 1100°C in Air and in Steam