Christoph Leyens scite author profile

Self-healing materials are able to partially or completely heal damage inflicted on them, e.g., crack formation; it is anticipated that the original functionality can be restored. This article covers the design and generic principles of self-healing materials through a wide range of different material classes including metals, ceramics, concrete, and polymers. Recent key developments and future challenges in the field of self-healing materials are summarised, and generic, fundamental material-independent principles and mechanism are discussed and evaluated.

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Titanium Alloys for Aerospace Applications

Peters¹,

Kumpfert

Ward³

et al. 2003

Adv Eng Mater

707

227

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There is probably no other material more closely related to aerospace than titanium and its alloys. With a density of 4.5g/cm3, titanium alloys are only about half as heavy as steel or Ni‐based superalloys, yielding an excellent strength‐to‐weight ratio. Furthermore, they have exceptional corrosion resistance. The use of titanium alloys in the aerospace sector will be highlighted including airframe, engine, helicopter, and space applications.

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Titanium Alloys for Aerospace Applications

Peters

Kumpfert

Ward³

et al. 2003

251

158

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Some recent trends in research and technology of advanced thermal barrier coatings

Schulz

Leyens

Fritscher

et al. 2003

Aerospace Science and Technology

445

148

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Additive manufactured Ti-6Al-4V using welding wire: comparison of laser and arc beam deposition and evaluation with respect to aerospace material specifications

Brandl¹,

et al. 2010

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