Claire Davis
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View article: EM sensor array for non-destructive evaluation of spatially varying steel phase transformation
EM sensor array for non-destructive evaluation of spatially varying steel phase transformation Open
View article: Influence of residuals on the microstructures and mechanical properties of a packaging steel
Influence of residuals on the microstructures and mechanical properties of a packaging steel Open
More steel scrap from recycling is being used as a raw material during steel production. It is known that residual elements arising from the scrap can affect the microstructures and mechanical properties of the final steel product. In this…
View article: Effect of plastic damage orientation with respect to magnetic flux pathway on magnetic performance for NGO electrical steel
Effect of plastic damage orientation with respect to magnetic flux pathway on magnetic performance for NGO electrical steel Open
View article: Scalar permeability microstructure model considering crystallographic texture and grain size for magnetic evaluation of anisotropy in steel
Scalar permeability microstructure model considering crystallographic texture and grain size for magnetic evaluation of anisotropy in steel Open
View article: EM Sensor Array for Non-Destructive Evaluation of Spatially Varying Steel Phase Transformation
EM Sensor Array for Non-Destructive Evaluation of Spatially Varying Steel Phase Transformation Open
View article: Effect of Sn and Cu residual elements on the static recrystallisation behaviour in a C-Mn steel
Effect of Sn and Cu residual elements on the static recrystallisation behaviour in a C-Mn steel Open
View article: Martensite size and morphology influence on strain distribution and micro-damage evolution in dual-phase steels; comparing segregation-neutralised and banded grades
Martensite size and morphology influence on strain distribution and micro-damage evolution in dual-phase steels; comparing segregation-neutralised and banded grades Open
A change in strain partitioning and microscale failure mechanisms in dual-phase (DP) steel was found when both the morphology and distribution of martensite were altered compared to a banded DP steel grade benchmarked against a specific co…
View article: Effect of impurities on phase transformation and precipitation in a low-carbon steel
Effect of impurities on phase transformation and precipitation in a low-carbon steel Open
Impurity elements have been added to a commercial low carbon steel grade to simulate the levels that could arise as a result of increased scrap recycling during steel production. In this study, continuous cooling transformation (CCT) diagr…
View article: Investigating the sensitivity of dual-phase steel microstructure to continuous annealing line parameters
Investigating the sensitivity of dual-phase steel microstructure to continuous annealing line parameters Open
The mechanical properties of dual-phase (DP) steels are influenced by ferrite grain size, martensite distribution/morphology, and strength differences between ferrite/martensite phases. A sensitivity study was conducted on a continuous ann…
View article: Development of a High Ductility DP Steel Using a Segregation Neutralization Approach: Benchmarked Against a Commercial Dual Phase Steel
Development of a High Ductility DP Steel Using a Segregation Neutralization Approach: Benchmarked Against a Commercial Dual Phase Steel Open
Commercial dual-phase steels are typically synonymous with a banded distribution of martensite in their microstructures, which can degrade ductility and increase the anisotropy of mechanical properties. The concept of neutralizing the effe…
View article: Machine Learning-based Analysis of Publications Funded by the National Institutes of Health's Initial COVID-19 Pandemic Response
Machine Learning-based Analysis of Publications Funded by the National Institutes of Health's Initial COVID-19 Pandemic Response Open
Background The National Institutes of Health (NIH) mobilized more than $4 billion in extramural funding for the COVID-19 pandemic. Assessing the research output from this effort is crucial to understanding how the scientific community leve…
View article: Analysis of National Institutes of Health Funding for the COVID-19 Pandemic
Analysis of National Institutes of Health Funding for the COVID-19 Pandemic Open
Background Evaluating the National Institute’s Health’s (NIH's) response to the coronavirus disease 2019 (COVID-19) pandemic via grants and clinical trials is crucial to determining the impact they had on aiding US citizens. We determined …
View article: Front Matter
Front Matter Open
View article: Effect of Plastic Damage Orientation with Respect to Magnetic Flux Pathway on Magnetic Performance for Ngo Electrical Steel
Effect of Plastic Damage Orientation with Respect to Magnetic Flux Pathway on Magnetic Performance for Ngo Electrical Steel Open
View article: Strain Distribution and Micro-Damage Evolution in a Segregation-Neutralised Dual-Phase Steel (Equiaxed/Well-Dispersed Martensite), Benchmarked Against a Commercial Dual-Phase Steel (Banded Martensite)
Strain Distribution and Micro-Damage Evolution in a Segregation-Neutralised Dual-Phase Steel (Equiaxed/Well-Dispersed Martensite), Benchmarked Against a Commercial Dual-Phase Steel (Banded Martensite) Open
View article: Novel Alloy Designed Electrical Steel for Improved Performance in High Frequency Electric Machines
Novel Alloy Designed Electrical Steel for Improved Performance in High Frequency Electric Machines Open
View article: A Usability Survey of a Quality Improvement Data Visualization Tool among Medical Intensive Care Unit Nurses
A Usability Survey of a Quality Improvement Data Visualization Tool among Medical Intensive Care Unit Nurses Open
Background Cognitive overload is prevalent among intensive care unit (ICU) clinicians. Data visualization may decrease cognitive load by assisting with data interpretation and task prioritization. We developed the Bundle Board to display r…
View article: Non-Destructive Characterisation of Pearlitic Steel Microstructure at Room Temperature and In-Situ Microstructure Development During Heat Treatment Using Electromagnetic Sensors
Non-Destructive Characterisation of Pearlitic Steel Microstructure at Room Temperature and In-Situ Microstructure Development During Heat Treatment Using Electromagnetic Sensors Open
View article: Grain-level effects on in-situ deformation-induced phase transformations in a complex-phase steel using 3DXRD and EBSD
Grain-level effects on in-situ deformation-induced phase transformations in a complex-phase steel using 3DXRD and EBSD Open
View article: Grain-level effects on in-situ deformation-induced phase transformations in a complex-phase steel using 3DXRD and EBSD
Grain-level effects on in-situ deformation-induced phase transformations in a complex-phase steel using 3DXRD and EBSD Open
A novel complex-phase steel alloy is conceived with a deliberately unstable austenite, $γ$, phase that enables the deformation-induced martensitic transformations (DIMT) to be explored at low levels of plastic strain. The DIMT was thus exp…
View article: Registration between DCT and EBSD datasets for multiphase microstructures
Registration between DCT and EBSD datasets for multiphase microstructures Open
The ability to characterise the three-dimensional microstructure of multiphase materials is essential for understanding the interaction between phases and their associated materials properties. Here, laboratory-based diffraction-contrast t…
View article: How the EU project “Online Microstructure Analytics” advances inline sensing of microstructure during steel manufacturing
How the EU project “Online Microstructure Analytics” advances inline sensing of microstructure during steel manufacturing Open
Weight savings in mobility and transport are mandatory in order to reduce CO 2 emissions and energy consumption. The steel industry offers weight saving solutions by a growing portfolio of Advanced High Strength Steel (AHSS) products. AHSS…
View article: In-situ microstructure monitoring during tempering of quenched AISI4340 steels using a high temperature electromagnetic sensor
In-situ microstructure monitoring during tempering of quenched AISI4340 steels using a high temperature electromagnetic sensor Open
AISI 4340 steels are used in applications where high strength and toughness are required, for example, in power transmission gears and shafts, aircraft landing gear and other structural components. The required mechanical properties are ac…
View article: Modelling Crystallographic Texture Evaluation and Non-Destructive Measurement of Magnetic Anisotropy using an Electromagnetic Sensor in Interstitial Free (If) Steels
Modelling Crystallographic Texture Evaluation and Non-Destructive Measurement of Magnetic Anisotropy using an Electromagnetic Sensor in Interstitial Free (If) Steels Open
Interstitial free (IF) steels are popular in the automotive industry for applications requiring good ductility (formability), strength and a superior surface quality. Magnetic anisotropy measurement can be used to gain information about th…
View article: Registration between DCT and EBSD datasets for multiphase microstructures
Registration between DCT and EBSD datasets for multiphase microstructures Open
The ability to characterise the three-dimensional microstructure of multiphase materials is essential for understanding the interaction between phases and associated materials properties. Here, laboratory-based diffraction-contrast tomogra…
View article: Composition and phase structure dependence of magnetic properties for Co2FeCr0.5Alx (x=0.9, 1.2) multi principal component alloys
Composition and phase structure dependence of magnetic properties for Co2FeCr0.5Alx (x=0.9, 1.2) multi principal component alloys Open
This article investigates the microstructure evolution, phase formation, and magnetic properties of Co2FeCr0.5Alx (x = 0.9, 1.2) complex component alloys, as a function of heat treatment temperatures (at 500, 600, 700, and 1150°C), using X…
View article: Synergistic effect of residual elements on oxidation rates and oxide/metal interface characteristics in a low-carbon steel oxidized at 1180°C for 3 hours
Synergistic effect of residual elements on oxidation rates and oxide/metal interface characteristics in a low-carbon steel oxidized at 1180°C for 3 hours Open
Steel scrap often contains residual elements that cannot be removed by the steelmaking process, such as Cu, Ni and Sn. In this study, residual elements of various contents have been added to a low carbon steel to simulate the scenario of i…
View article: Measurement and Modelling Magnetic Anisotropy due to Crystallographic Texture in Interstitial Free (IF) Steels
Measurement and Modelling Magnetic Anisotropy due to Crystallographic Texture in Interstitial Free (IF) Steels Open
A set of IF steel specimens, at different states of recrystallisation (commercially cold rolled and annealed to give partially recrystallised and fully recrystallised microstructures) and accordingly different texture components have been …
View article: Subverting Looming Disasters: Weaving as Power Motif Across Classical, Old English, and Norse Myth
Subverting Looming Disasters: Weaving as Power Motif Across Classical, Old English, and Norse Myth Open
The mythic motif of weaving often depicts women exerting control over their surroundings through cunning and skill. Contrary to perceptions of weaving as constrained action in classical myth, however, weaving in Old English and Norse myth …
View article: Texture Development During Annealing in a Low-Carbon Formable Steel Containing Impurities from Increased Scrap Use
Texture Development During Annealing in a Low-Carbon Formable Steel Containing Impurities from Increased Scrap Use Open
Impurities (Cu, Sn, Cr, and Ni) have been added to a low-carbon formable strip steel to simulate the scenario of increased use of scrap during steel production. Texture evolution during annealing of the cold-rolled base steel and impurity-…