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Slater, Carl
University of Warwick
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (16/16 displayed)
- 2023Registration between DCT and EBSD datasets for multiphase microstructurescitations
- 2023Grain-level effects on in-situ deformation-induced phase transformations in a complex-phase steel using 3DXRD and EBSDcitations
- 2022Identifying Optimal Hot Forming Conditions for AA6010 Alloy by Means of Elevated Temperature Tensile Testingcitations
- 2022Development of desirable fine ferrite grain size and random second phase dual-phase steel microstructures using composition and/or processing modificationscitations
- 2022Effect of sample geometry on strain uniformity and double hit compression tests for softening kinetics determinationcitations
- 2022Segregation neutralised steels : microstructural banding elimination from dual phase steel through alloy design accounting for inherent segregationcitations
- 2021Optimising compression testing for strain uniformity to facilitate microstructural assessment during recrystallisationcitations
- 2020A novel forming technique to coforge bimetal components into complex geometriescitations
- 2020Near net shape casting : is it possible to cast too thin?citations
- 2019Characterisation of the solidification of a molten steel surface using infrared thermographycitations
- 2017Characterisation of solidification using combined confocal scanning laser microscopy with infrared thermographycitations
- 2016Observation of the reversible stabilisation of liquid phase iron during nitridingcitations
- 2016Using confocal scanning laser microscopy to characterise as-cast microstructures using cooling rates representative of thin slab direct cast steels
- 2016Effect of solidification rate on microstructure evolution in dual phase microalloyed steelcitations
- 2016Chemically Induced Solidificationcitations
- 2012The static and dynamic behaviour of carbon fibre composites used in golf club shafts
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article
Observation of the reversible stabilisation of liquid phase iron during nitriding
Abstract
Confocal scanning laser microscopy has been used to observe in-situ cooling of Grade 1 iron whilst under a nitrogen atmosphere. Liquid iron has been stabilised to temperatures below 1400°C through nitriding at high temperatures. This has been achieved in two ways. Firstly by exposing the melt to nitrogen and observing the onset of solidification whilst cooling. Secondly, under isothermal conditions by re-melting of initially nitrogen free iron at 1400°C through the introduction of a nitrogen atmosphere. The latter process has been shown to be reversible with liquid iron being unstable once reverting back to a helium atmosphere.