2015
DOI: 10.1146/annurev-matsci-070214-020959
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Surface Engineering of Mo-Base Alloys for Elevated-Temperature Environmental Resistance

Abstract: The synthesis of robust coatings that provide protection against environmental attack at ultrahigh temperatures is a difficult challenge. To achieve this goal for Mo-base alloys, the fundamental concepts of reactive diffusion pathway analysis and kinetic biasing are used to design a multilayer Mo-Si-B-base coating with a phase sequencing that allows for structural and thermodynamic compatibility and an underlying diffusion barrier to maintain coating integrity. The coating design concepts have a general applic… Show more

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Cited by 32 publications
(10 citation statements)
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References 128 publications
(114 reference statements)
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“…To manage this challenge, the higher energy set point (5) is determined experimentally by the use of Mo 5 SiB 2 phase FIGURE 2 Wavelength dispersive spectroscopy spectrum for Mo ss (blue) with a simulated overlaid small B-K peak (green) on the Mo-M tail. Marker (1) and (2) illustrate the low energy and high energy background set points for calculation the net boron intensity FIGURE 3 Wavelength dispersive spectroscopy spectrum over the B-K (1) and Mo-M (2) peaks and determination of the correct background set points (3,5) for calculation the net boron intensity (4) as a standard sample. The set point is determined by extrapolating a line starting from the left point (3) with the slope of the pure Mo-M ζ low energy tail onto the right shoulder of the Mo-M ζ peak in the first case.…”
Section: Resultsmentioning
confidence: 99%
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“…To manage this challenge, the higher energy set point (5) is determined experimentally by the use of Mo 5 SiB 2 phase FIGURE 2 Wavelength dispersive spectroscopy spectrum for Mo ss (blue) with a simulated overlaid small B-K peak (green) on the Mo-M tail. Marker (1) and (2) illustrate the low energy and high energy background set points for calculation the net boron intensity FIGURE 3 Wavelength dispersive spectroscopy spectrum over the B-K (1) and Mo-M (2) peaks and determination of the correct background set points (3,5) for calculation the net boron intensity (4) as a standard sample. The set point is determined by extrapolating a line starting from the left point (3) with the slope of the pure Mo-M ζ low energy tail onto the right shoulder of the Mo-M ζ peak in the first case.…”
Section: Resultsmentioning
confidence: 99%
“…The line from (3) to (5) represents the valid background. The intersection of the B-K α peak with the line (3) to (5) results in point (4), which is used to calculate the right boron content. For quantification, the acquisition process is the same such as explained above.…”
Section: Resultsmentioning
confidence: 99%
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“…Inherent limits exist for future development, as the melting temperature (or more accurately the liquidus and solidus temperatures) is intrinsic to the material and cannot be appreciably increased. This reality has spurred research and development of ordered intermetallic alloys such as NiAl-, [2] Nb-, and Mo-based refractory alloys, [3][4][5][6] and ceramic composites of alumina [7] and silicon carbide, [8] all with the goal of supplanting Ni-based superalloys for the most demanding high-temperature applications. However, these alternatives often suffer from poor fracture toughness and processing constraints that make their current use costly and limited, [3][4][5]9] especially considering the safety requirements for use in aerospace.…”
Section: Introductionmentioning
confidence: 99%
“…However, below 900 C, this alloy suffers from catastrophic oxidation because the borosilicate scale is porous allowing evaporation of gaseous MoO 3 . Perepezko [11] showed recently that additions of Al are beneficial for the oxidation resistance.…”
Section: Introductionmentioning
confidence: 99%