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Microstructural characterisation of Tristelle 5183 (Fe-21%Cr-10%Ni-7.5%Nb-5%Si-2%C in wt%) alloy powder produced by gas atomisation (2018)
Journal Article
Carrington, M., Daure, J., Ratia, V., Shipway, P., McCartney, D., & Stewart, D. (2019). Microstructural characterisation of Tristelle 5183 (Fe-21%Cr-10%Ni-7.5%Nb-5%Si-2%C in wt%) alloy powder produced by gas atomisation. Materials and Design, 164, Article 107548. https://doi.org/10.1016/j.matdes.2018.107548

Nitrogen gas atomised powders of the hardfacing alloy Tristelle 5183 (Fe-21%Cr-10%Ni-7%Nb-5%Si-2%C in wt%) were sieved into different particle size ranges and their microstructures have been investigated. Powder particles larger than approximately 53... Read More about Microstructural characterisation of Tristelle 5183 (Fe-21%Cr-10%Ni-7.5%Nb-5%Si-2%C in wt%) alloy powder produced by gas atomisation.

Correlation and capability of using site inspection data and small specimen creep testing for a service-exposed CrMoV pipe section (2018)
Journal Article
Cacciapuoti, B., Morris, A., Sun, W., McCartney, D., & Hulance, J. (2018). Correlation and capability of using site inspection data and small specimen creep testing for a service-exposed CrMoV pipe section. Materials at High Temperatures, 36(2), 173-186. https://doi.org/10.1080/09603409.2018.1503148

This paper presents for the first time an investigation on the creep damage evolution of an ex-service CrMoV pipe section through impression creep test and metallurgical inspection data. The study emphasises the importance of correlating the operatin... Read More about Correlation and capability of using site inspection data and small specimen creep testing for a service-exposed CrMoV pipe section.

Investigation of the effect of forming parameters in incremental sheet forming using a micromechanics based damage model (2018)
Journal Article
Gatea, S., Lu, B., Chen, J., Ou, H., & McCartney, G. (2019). Investigation of the effect of forming parameters in incremental sheet forming using a micromechanics based damage model. International Journal of Material Forming, 12(4), 553–574. https://doi.org/10.1007/s12289-018-1434-3

The incremental sheet forming (ISF) process is considered as a feasible solution for forming a variety of small batch and even customised sheet components. The quality of an ISF product is affected by various process parameters, e.g. sheet material,... Read More about Investigation of the effect of forming parameters in incremental sheet forming using a micromechanics based damage model.

Deformation and fracture characteristics of Al6092/SiC/17.5p metal matrix composite sheets due to heat treatments (2018)
Journal Article
Gatea, S., Ou, H., & McCartney, G. (2018). Deformation and fracture characteristics of Al6092/SiC/17.5p metal matrix composite sheets due to heat treatments. Materials Characterization, 142, https://doi.org/10.1016/j.matchar.2018.05.050

In metal matrix composite (MMC) materials, the reaction between the metal matrix and reinforcement particles could change the composition of the matrix and the interface and lead to interfacial compounds. These intermetallic compounds may have either... Read More about Deformation and fracture characteristics of Al6092/SiC/17.5p metal matrix composite sheets due to heat treatments.