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All Outputs (3)

The capability of traditional and modern creep lifing methods to predict long-term creep properties (2014)
Presentation / Conference
Abdallah, Z., Whittaker, M., & Perkins, K. (2014, May). The capability of traditional and modern creep lifing methods to predict long-term creep properties. Paper presented at ECCC Creep & Fracture 2014 -3rd International ECCC Conference, Rome, Italy

The ability to predict the stress-rupture behaviour of high temperature components is of paramount importance in both power generation and aerospace applications. Historically, the power law-based techniques such as the Larson-Miller, Manson-Haferd a... Read More about The capability of traditional and modern creep lifing methods to predict long-term creep properties.

Application of modern creep lifing techniques to a gamma-TiAl alloy (Ti- 45Al-2Mn-2Nb) (2012)
Presentation / Conference
Abdallah, Z., Whittaker, M. T., Bache, M. R., & Dixon, M. (2012, September). Application of modern creep lifing techniques to a gamma-TiAl alloy (Ti- 45Al-2Mn-2Nb). Paper presented at The 9th International Conference on Creep and Fatigue at Elevated Temperatures, London, UK

Intermetallic materials such as gamma titanium alumindes (-TiAl) offer an extremely attractive balance of properties. In support of potential engineering applications it is essential that the material properties are well understood across a wide tem... Read More about Application of modern creep lifing techniques to a gamma-TiAl alloy (Ti- 45Al-2Mn-2Nb).

High temperature creep behaviour of gamma-titanium aluminides (gamma-TiAl) (2012)
Presentation / Conference
Abdallah, Z., Dixon, M., Whittaker, M., & Bache, M. (2012, July). High temperature creep behaviour of gamma-titanium aluminides (gamma-TiAl). Paper presented at The 12th International Conference on Creep and Fracture of Engineering Materials and Structure, Kyoto, Japan

Compared to conventional titanium alloys, gamma titanium aluminides (gamma-TiAl)offer highly desirable properties to the design engineer, with relatively high specific stiffness and high temperature capability. However, a significant drawback of this... Read More about High temperature creep behaviour of gamma-titanium aluminides (gamma-TiAl).