Joseph Lemberg scite author profile

A continuing quest in science is the development of materials capable of operating structurally at ever-increasing temperatures. Indeed, the development of gas-turbine engines for aircraft/aerospace, which has had a seminal impact on our ability to travel, has been controlled by the availability of materials capable of withstanding the higher-temperature hostile environments encountered in these engines. Nickel-base superalloys, particularly as single crystals, represent a crowning achievement here as they can operate in the combustors at ~1100 °C, with hot spots of ~1200 °C. As this represents ~90% of their melting temperature, if higher-temperature engines are ever to be a reality, alternative materials must be utilized. One such class of materials is Mo-Si-B alloys; they have higher density but could operate several hundred degrees hotter. Here we describe the processing and structure versus mechanical properties of Mo-Si-B alloys and further document ways to optimize their nano/microstructures to achieve an appropriate balance of properties to realistically compete with Ni-alloys for elevated-temperature structural applications.

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On the fracture toughness of fine-grained Mo-3Si-1B (wt.%) alloys at ambient to elevated (1300 °C) temperatures

Lemberg

Middlemas

Weingärtner

et al. 2012

Intermetallics

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In situ bend testing of niobium-reinforced alumina nanocomposites with and without single-walled carbon nanotubes

Thomson¹,

Jiang²,

Lemberg³

et al. 2008

Materials Science and Engineering: A

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Joseph Lemberg

Mo‐Si‐B Alloys for Ultrahigh‐Temperature Structural Applications

On the fracture toughness of fine-grained Mo-3Si-1B (wt.%) alloys at ambient to elevated (1300 °C) temperatures

In situ bend testing of niobium-reinforced alumina nanocomposites with and without single-walled carbon nanotubes

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